Asst. Prof. Gaurav Bhargava, Technical Officer-D

Dr. Gaurav Bhargava is a distinguished analytical chemist currently serving as Technical Officer-D at the Atomic Mineral Directorate for Exploration and Research, Department of Atomic Energy, India. Born on October 15, 1992, Dr. Bhargava has dedicated his career to advancing analytical chemistry techniques, particularly in the field of radioanalytical chemistry and trace metal analysis. His expertise spans specialized separation techniques and pre-concentration methods for uranium and trace metals in hydro-geochemical samples, contributing significantly to India’s atomic energy research capabilities.

Education

Dr. Bhargava holds a Master of Science (M.Sc.) degree in Chemistry, which provided him with a strong foundational understanding of chemical principles and analytical techniques. His advanced education equipped him with the theoretical knowledge and practical skills necessary to pursue specialized research in analytical chemistry, particularly in the context of radioactive materials and trace element analysis. His academic background has been instrumental in shaping his career trajectory within India’s prestigious Department of Atomic Energy.

Research Focus

Dr. Bhargava’s research primarily concentrates on analytical chemistry with a specialized focus on radioanalytical chemistry and environmental geochemistry. His work involves developing and optimizing advanced separation and pre-concentration techniques for uranium and trace metals in complex environmental matrices. He specializes in utilizing functionalized adsorbents, particularly ANSA (1-nitroso-2-naphthol-3,6-disulfonic acid) impregnated activated charcoal, for selective extraction and concentration of target analytes from hydro-geochemical samples. This research is crucial for uranium exploration, environmental monitoring, and nuclear fuel cycle applications.

Experience

Dr. Bhargava currently holds the position of Technical Officer-D at the Atomic Mineral Directorate for Exploration and Research (AMD), a key organization within India’s Department of Atomic Energy. In this role, he contributes to the analytical characterization of geological and environmental samples related to atomic mineral exploration. His position involves conducting sophisticated analytical procedures, developing new methodologies for trace element detection, and ensuring quality control in radioanalytical measurements. His work directly supports India’s uranium exploration programs and contributes to the nation’s energy security initiatives.

Research Timeline

Dr. Bhargava’s documented research timeline shows active publication beginning in 2015, marking the start of his significant contributions to analytical chemistry literature. His research career has evolved in parallel with his professional responsibilities at AMD, demonstrating a consistent commitment to advancing analytical methodologies for radioactive and trace element analysis. His early work established foundational techniques that continue to influence current practices in radioanalytical chemistry and environmental sample preparation.

Research Publications

Dr. Bhargava has contributed to the peer-reviewed scientific literature with publications in internationally recognized journals. His publication record includes work in the Journal of Radioanalytical and Nuclear Chemistry, a prestigious Springer journal dedicated to research at the intersection of radioactivity, nuclear science, and analytical chemistry. His collaborative research approach is evident through his co-authored publications, working alongside colleagues including Naveen Kumar Pattipaka, Sanjay Kumar, and A.K. Sardana, demonstrating strong team-based research capabilities.

Publications

Title: Separation and pre-concentration of uranium and trace metals using ANSA impregnated activated charcoal in hydro-geochemical samples

Authors: Gaurav Bhargava, Naveen Kumar Pattipaka, Sanjay Kumar & A.K. Sardana

Journal: Journal of Radioanalytical and Nuclear Chemistry

Year: 2015

Abstract/Summary: This research presents an innovative methodology for the selective separation and pre-concentration of uranium and associated trace metals from hydro-geochemical sample matrices. The study demonstrates the application of ANSA (1-nitroso-2-naphthol-3,6-disulfonic acid) impregnated activated charcoal as an effective solid-phase extraction medium. The developed technique addresses critical analytical challenges in uranium exploration and environmental monitoring by providing enhanced sensitivity and selectivity for target analytes. The method’s applicability to complex environmental samples makes it particularly valuable for routine analysis in atomic mineral exploration programs. This work contributes to advancing analytical capabilities for radioactive element detection and supports India’s strategic initiatives in nuclear energy resource assessment.

Research Impact

Dr. Bhargava’s research has made meaningful contributions to the field of radioanalytical chemistry, particularly in developing practical analytical solutions for uranium exploration and environmental monitoring. His work on ANSA-impregnated activated charcoal methodology has provided researchers and analysts with improved tools for trace element detection in complex matrices. The practical application of his research within the Atomic Mineral Directorate demonstrates real-world impact, supporting India’s uranium exploration programs and contributing to national energy security. His publications continue to serve as reference material for researchers working on similar analytical challenges in radioanalytical chemistry.

Innovation & Intellectual Property

Dr. Bhargava’s work demonstrates innovation in adapting and optimizing solid-phase extraction techniques for specialized applications in radioanalytical chemistry. His research on ANSA impregnated activated charcoal represents a creative approach to solving analytical challenges in uranium and trace metal determination. The methodology developed combines established chemical principles with innovative material preparation and application strategies, resulting in improved analytical performance. While specific patent information is not available in the current documentation, his technical contributions represent valuable intellectual assets within the field of analytical chemistry and nuclear materials analysis.

Research Projects & Funding

Dr. Bhargava’s research activities are conducted under the auspices of the Atomic Mineral Directorate for Exploration and Research, which operates under the Department of Atomic Energy, Government of India. His work benefits from institutional support and funding provided through India’s atomic energy program, which prioritizes development of analytical capabilities for uranium exploration and nuclear fuel cycle applications. His position as Technical Officer-D indicates involvement in strategic research projects aligned with national priorities in atomic mineral assessment and characterization.

Conference Contributions

 Researchers at his level within the Department of Atomic Energy typically participate in national and international conferences related to analytical chemistry, nuclear chemistry, and atomic mineral exploration. His collaborative research approach and publication record indicate potential contributions to scientific meetings and symposia focused on radioanalytical techniques and environmental geochemistry.

Academic Excellence

Dr. Bhargava’s academic credentials, including his M.Sc. in Chemistry and his progression to Technical Officer-D position within the prestigious Department of Atomic Energy, reflect strong academic foundation and continued professional development. His ability to publish in peer-reviewed international journals demonstrates mastery of research methodologies and scientific communication. His work with the Atomic Mineral Directorate, an institution known for technical excellence, further underscores his academic and professional competence in analytical chemistry and radioanalytical applications.

Societal / Industry Contribution

Dr. Bhargava’s work directly contributes to India’s energy security and sustainable development goals through his involvement in uranium exploration and atomic mineral assessment. His analytical chemistry research supports the identification and characterization of uranium resources, which are critical for India’s nuclear energy program. By developing improved analytical techniques, he enables more efficient and accurate assessment of mineral resources, contributing to informed decision-making in energy policy and resource management. His work also has implications for environmental monitoring and protection, ensuring safe practices in areas affected by naturally occurring radioactive materials.

Global Recognition

Dr. Bhargava’s publication in the Journal of Radioanalytical and Nuclear Chemistry, an internationally recognized Springer journal, demonstrates global reach and recognition of his research contributions. This journal is indexed in major scientific databases and is read by researchers worldwide, ensuring that his methodological innovations are accessible to the international scientific community. His application for the Best Researcher Award from International Scientists Award represents pursuit of additional global recognition for his contributions to analytical chemistry. His work within India’s Department of Atomic Energy, a globally recognized institution in nuclear science and technology, further enhances his international professional standing.

Dr. Eldem Sadikoglou, Research Assistant

Eldem Sadikoglou is a dedicated neuroscientist with extensive experience in academic research, currently serving as a research assistant at DZNE (Deutsches Zentrum für Neurodegenerative Erkrankungen), the German Center for Neurodegenerative Diseases. With a strong foundation in molecular biology, genetics, and cell biology, Sadikoglou has demonstrated exceptional capabilities in project management and rigorous research methodologies. Their career is characterized by a persistent drive to expand scientific knowledge through collaborative efforts and mentoring of future researchers, with the ultimate goal of contributing meaningfully to the scientific community and creating a positive impact on society through groundbreaking research in neurodegenerative diseases.

Education

Sadikoglou’s academic journey demonstrates a progressive specialization in molecular and cellular sciences. They obtained their Bachelor of Science degree in Biology from the Faculty of Science at Ankara University in Turkey, establishing a solid foundation in biological sciences. Building upon this foundation, they pursued a Master of Science degree in Medicinal Chemistry through the Interdepartmental Master Program in Medicinal Chemistry and Chemical Biology at the Molecular Pharmacology Department of the University of Patras in Greece. Their academic training culminated in a PhD in Molecular Biology and Genetics from the Molecular Biology & Genetics Department at the Health Sciences School of Democritus University of Thrace (DUTH) in Alexandroupoli, Greece, where they developed advanced expertise in molecular mechanisms underlying disease processes.

Research Focus

Sadikoglou’s research encompasses a broad spectrum of molecular and cellular neuroscience, with particular emphasis on neurodegenerative diseases including Parkinson’s disease, frontotemporal dementia, and tauopathies. Their work integrates molecular biology, biochemistry, genetics, and cell biology approaches, utilizing advanced cellular models including cancer cells, induced pluripotent stem cells (iPSCs), stem cells, and neurons. They specialize in developing high-throughput screening assays with iPSC-derived neurons and employs microscopy techniques to investigate cellular mechanisms. Their research particularly focuses on understanding genetic risk factors, such as the Chr:17q21.31 locus and MAPT haplotypes, and their roles in disease susceptibility through mechanisms including ferroptosis and endolysosomal pathway dysfunction. Additionally, they have contributed to understanding the effects of retinoic acid derivatives on cancer cell growth and angiogenesis, as well as insecticide resistance mechanisms in agricultural pests.

Experience

Sadikoglou’s professional experience spans over a decade of continuous research contributions. Since 2016, they have been serving as a research assistant at DZNE, where they have been involved in cutting-edge neurodegenerative disease research. Between 2023 and 2024, they participated in “The Foundational Data Initiative for Parkinson’s Disease (FOUNDIN-PD)”, a significant international collaborative effort. Earlier in their career, from 2012 to 2014, they worked as an external scientific collaborator on multiple cross-border projects funded through INTERREG IIIA programs, including “Cross-Border Collaboration for the Promotion of Technological Applications and Scientific Education on Medicinal Molecular Biology” and “Development of infrastructure for the carrier identification of inherited diseases”, as well as a project on “Genomic and functional approaches for understanding insecticide resistance in major agricultural pests”. Throughout their career, they have regularly supervised undergraduate students, first during their PhD studies and subsequently at DZNE, demonstrating a commitment to training the next generation of scientists.

Research Timeline

Sadikoglou’s research career has evolved through distinct phases, each building upon previous expertise. Their early work (2007-2014) focused on medicinal chemistry and cancer biology, investigating the effects of retinoic acid analogues and their conjugates on prostate cancer cells and angiogenesis. During their PhD period, they developed expertise in molecular genetics, studying transcription factors and gene regulation in the developing nervous system, while simultaneously contributing to insecticide resistance research in agricultural pests (2012-2015). A major transition occurred in 2016 when they joined DZNE, shifting their focus to neurodegenerative diseases. From 2018 onwards, their work has concentrated on developing iPSC-based disease models, investigating genetic risk factors for tauopathies and frontotemporal dementia, and most recently (2023-2025) examining the molecular mechanisms by which genetic variants influence disease susceptibility, particularly through ferroptosis and endolysosomal pathways.

Research Publications

Sadikoglou has authored and co-authored numerous peer-reviewed publications across diverse research areas. Their publication record includes work on medicinal chemistry and cancer biology, with papers examining retinoic acid derivatives and their effects on cancer cells. They have contributed significantly to molecular genetics research, publishing on internal ribosomal entry sites and gene regulation. Their work in applied entomology includes publications on insecticide resistance mechanisms and diagnostic tools. More recently, their publications have focused on neurodegenerative diseases, including iPSC-based disease modeling, multi-omics approaches to frontotemporal dementia, and mechanisms of genetic susceptibility to neurodegeneration. Their most recent publication (2025) in Cell Death & Disease represents a significant contribution to understanding how genetic risk factors mediate disease susceptibility through specific cellular pathways.

Research Impact

Sadikoglou’s research has made substantial contributions to multiple fields. In cancer biology, their work elucidated the mechanisms by which retinoic acid derivatives affect cancer cell growth and angiogenesis, potentially contributing to therapeutic development. In agricultural science, their diagnostic tools for insecticide resistance have practical applications for pest management strategies. Most significantly, their neuroscience research has advanced understanding of genetic risk factors for neurodegenerative diseases, providing insights into disease mechanisms that could inform therapeutic interventions. Their development of automated protocols for producing iPSC-derived neurons has contributed to standardizing research methodologies in the field. The multi-omics datasets they have helped generate serve as valuable resources for the broader research community investigating frontotemporal dementia and related disorders.

Innovation & Intellectual Property

Sadikoglou has contributed to methodological innovations in neuroscience research, particularly in the development of high-throughput screening assays using iPSC-derived neurons and automated cell production systems with integrated live-cell monitoring. Their work on diagnostic tools for insecticide resistance represents practical innovation in applied biology. They have also contributed to translational research by publishing detailed visual protocols in the Journal of Visualized Experiments, making complex methodologies accessible to the broader scientific community. Additionally, their work translating scientific textbooks from English to Greek, including indexes for “iGenetics: A Mendelian Approach” by Peter J. Russell and “The Cell: A Molecular Approach” by Geoffrey M. Cooper and Robert E. Hausman (5th edition), has facilitated scientific education in Greek-speaking communities.

Research Projects & Funding

Throughout their career, Sadikoglou has been involved in several funded research initiatives. They received a prestigious PhD fellowship from the Greece-State Scholarships Foundation (IKY), supporting their doctoral research. They participated as an external scientific collaborator in two INTERREG IIIA cross-border cooperation projects focused on medicinal molecular biology education and infrastructure development for inherited disease carrier identification, as well as a project on insecticide resistance genomics. Most notably, they contributed to “The Foundational Data Initiative for Parkinson’s Disease (FOUNDIN-PD)” from 2023 to 2024, a major international consortium aimed at establishing foundational datasets for understanding Parkinson’s disease. Their ongoing position at DZNE, one of Germany’s premier research centers for neurodegenerative diseases, reflects sustained institutional support for their research activities.

Conference Contributions

Sadikoglou has actively disseminated their research findings through conference presentations, demonstrating engagement with the scientific community. At the 8th International Conference of Medicinal Chemistry in 2007 in Patras, Greece, they presented work on “Effects of retinoic acid analogues on prostate cancer”, which received recognition as the Best Poster Presentation. At the 6th Panhellenic Congress of Pharmacology in Heraklion, Crete (June 2010), they co-presented research on the effects of all-trans-retinoic acid conjugates on cancer cell growth and angiogenesis. At the 61st Greek Conference of Biochemistry and Molecular Biology, they contributed two presentations: one on “Characterization of the DNA binding properties of the transcription factor Lhx7” and another on “Expression and regulation of the tle4 gene in the developing mouse nervous system”, demonstrating their versatility across different research topics.

Academic Excellence

Sadikoglou’s academic excellence has been recognized through multiple achievements. They received the Best Poster Presentation Award at the 8th Medicinal Chemistry Conference in 2007 in Patras, Greece, recognizing the quality and impact of their research communication. Their selection for a PhD fellowship from the Greece-State Scholarships Foundation (IKY) reflects recognition of their academic merit and research potential. Their multilingual capabilities—being bilingual in Greek and Turkish with proficiency in English—enable effective collaboration in international research environments. Their progression from undergraduate supervision during their PhD to continued mentoring at DZNE demonstrates their commitment to academic excellence not only in research but also in education and training of future scientists.

Societal / Industry Contribution

Sadikoglou’s research has direct relevance to addressing major societal challenges. Their work on neurodegenerative diseases, particularly Parkinson’s disease, frontotemporal dementia, and tauopathies, addresses conditions that affect millions worldwide and place significant burden on healthcare systems and families. By elucidating genetic risk factors and disease mechanisms, their research contributes to the foundation for developing therapeutic interventions. Their earlier work on insecticide resistance has practical applications for agriculture and food security, providing diagnostic tools that help manage pest populations more effectively. Their contribution to translating scientific textbooks into Greek has facilitated science education and knowledge dissemination in Greek-speaking communities. Through mentoring and supervision of students, they contribute to building scientific capacity and training the next generation of researchers who will continue addressing societal challenges.

Global Recognition

Sadikoglou’s work has achieved international recognition through publications in prestigious journals and participation in global research initiatives. Their publications appear in internationally renowned journals including Cell Death & Disease, Scientific Data, Frontiers in Cellular and Developmental Biology, Pest Management Science, European Journal of Medicinal Chemistry, European Journal of Pharmacology, and Journal of Biotechnology, among others. Their participation in The Foundational Data Initiative for Parkinson’s Disease (FOUNDIN-PD) represents involvement in a major international collaborative effort. Their position at DZNE, a leading German research institution with global partnerships, places them within an international network of neuroscience researchers. Their research is accessible through their ORCID profile, facilitating global discoverability and citation of their work within the international scientific community.

Publications

Sadikoglou E, Magoulas G, Theodoropoulou C, Athanassopoulos C, Giannopoulou E, Theodorakopoulou O, Drainas D, Papaioannou D, Papadimitriou E. “Effect of conjugates of all-trans-retinoic acid and shorter polyene chain analogues with amino acids on prostate cancer cell growth”. European Journal of Medicinal Chemistry, 2009.

Vourtsis D, Lamprou M, Sadikoglou E, Giannou A, Theodorakopoulou O, Sarrou E, Magoulas G, Bariamis S, Athanassopoulos CM, Drainas D, Papaioannou D, Papadimitriou E. “Effect of all-trans retinoic acid conjugate with spermine in viability of human prostate cancer and endothelial cells in vitro and angiogenesis in vivo”. European Journal of Pharmacology, 2013.

Sadikoglou E, Daoutsali E, Petridou E, Grigoriou M, Skavdis G. “Comparative analysis of internal ribosomal entry sites as molecular tools for bicistronic expression”. Journal of Biotechnology, 2014.

Voudouris C, Kati A, Sadikoglou E, Williamson M, Skouras P, Georgiou S, Fenton B, Skavdis G, Margaritopoulos J. “Insecticide resistance status of Myzus persicae in Greece: long term surveys and new diagnostics for resistance mechanisms”. Pest Management Science, 2015.

Kapantaidaki DE, Sadikoglou E, Tsakireli D, Kampanis V, Stavrakaki M, Schorn C, Ilias A, Riga M, Tsiamis G, Nauen R, Skavdis G, Vontas J, Tsagkarakou A. “Insecticide resistance in Trialeurodes vaporariorum populations and novel diagnostics for kdr mutations”. Pest Management Science, 2018 Jan; 74(1).

Dhingra A, Täger J, Bressan E, Rodriguez-Nieto S, Bedi MS, Bröer S, Sadikoglou E, Fernandes N, Castillo-Lizardo M, Rizzu P, Heutink P. “Automated Production of Human Induced Pluripotent Stem Cell-Derived Cortical and Dopaminergic Neurons with Integrated Live-Cell Monitoring”. Journal of Visualized Experiments, 2020.

Strauß T, Marvian-Tayaranian A, Sadikoglou E, Dhingra A, Wegner F, Trümbach D, Wurst W, Heutink P, Schwarz SC, Höglinger GU. “iPS Cell-Based Model for MAPT Haplotype as a Risk Factor for Human Tauopathies Identifies No Major Differences in TAU Expression”. Frontiers in Cellular and Developmental Biology, 2021.

Menden K, Francescatto M, Nyima T, Blauwendraat C, Dhingra A, Castillo-Lizardo M, Fernandes N, Kaurani L, Kronenberg-Versteeg D, Atasu B, Sadikoglou E, Borroni B, Rodriguez-Nieto S, Simon-Sanchez J, Fischer A, Craig DW, Neumann M, Bonn S, Rizzu P, Heutink P. “A multi-omics dataset for the analysis of frontotemporal dementia genetic subtypes”. Scientific Data, 2023 Dec 1; 10(1):849. doi: 10.1038/s41597-023-02598-x. PMID: 38040703; PMCID: PMC10692098.

Sadikoglou E, Domingo-Fernández D, Savytska N, Fernandes N, Rizzu P, Illarionova A, Strauß T, Schwarz SC, Kodamullil A, Höglinger GU, Dhingra A, Gasser T, Heutink P. “Chr:17q21.31 locus risk haplotype H1 susceptibility to ferroptosis is mediated by endolysosomal pathway”. Cell Death & Disease, 2025 Nov 13; 16(1):828. doi: 10.1038/s41419-025-08147-1. PMID: 41238560; PMCID: PMC12618564.

Prof. Dr. Saad Zagloul Rida Ahmed

Professor of Mathematics | Fractional Calculus | Mathematical Modeling

Prof. Dr. Saad Zagloul Rida Ahmed is a distinguished Professor of Mathematics at South Valley University, Egypt, with over four decades of exceptional contributions to mathematical sciences. Born in Qena, Egypt, in 1961, Prof. Rida holds two Ph.D. degrees—the first from Freie Universität Berlin, Germany (1996) on differential operators, and the second from South Valley University (2004) on soliton theory. His extraordinary research productivity is evidenced by over 150 publications in prestigious international journals. As Editor-in-Chief of three specialized journals in fractional calculus, he shapes global research directions. He has supervised 30 completed doctoral and master’s theses with 6 additional students currently registered. His international research experience spans Germany and the United Kingdom, fostering collaborations with renowned mathematicians. Leadership roles include Chairman of Mathematics Department (2006), Vice Dean for Higher Graduates and Research (2013), and Chairman of College Council (2015-2016).

---

Online Profiles

Editorial Positions:

• Editor-in-Chief, Journal of Fractional Calculus and Applications
• Editor-in-Chief, International Journal of Fractional Differential Equations
• Editor-in-Chief, Journal of Fractional Mathematical Modeling

Professional Memberships:

• Egyptian Mathematical Society
• National Committee of Mathematics

Reviewer for 22 Scientific Journals

 

---

Education

Second Ph.D. in Mathematics

South Valley University, Egypt, 2004 Thesis: “Motion of Solitons and Kinks for Nonlinear Schrödinger (NLS), Double-Quadratic (DQ), Kortweg-de Vries (KdV), and Boussinesq Equations Under Various Effects”

First Ph.D. in Mathematics

Freie Universität Berlin, Germany, 1996 Thesis: “Powers of Differential Operators and Explicit Differential Polynomials” Supervisors: Prof. Dr. Heinrich Begehr & Prof. Dr. Rainer Schimming

M.Sc. in Mathematics

Assiut University, Egypt, 1989

B.Sc. in Mathematics

Assiut University, Egypt, 1984

Languages: Arabic (native), English (very good), German (good)

---

Research Focus

Mathematical analysis, Fractional calculus, Differential equations, Mathematical modeling, Dynamical systems, Soliton theory, Bio-mathematics, Epidemic modeling, Nanofluid dynamics, Special functions, Numerical methods

---

Experience

Professor (2012-Present), Assistant Professor (2003-2012), Lecturer (1996-2003), Assistant Lecturer (1989-1996), Demonstrator (1985-1989), Department of Mathematics, South Valley University

Administrative: Chairman of Mathematics Department (2006), Vice Dean for Higher Graduates and Research (2013), Chairman of College Council (2015-2016)

International Research: Germany (1994-1996, 1996, 2008), UK (2000)

---

Research Timeline

2015-2016: Chairman, College Council 2013: Vice Dean for Higher Graduates and Research
2012-Present: Professor 2008: Postdoctoral, Freie Universität Berlin 2006: Chairman, Mathematics Department 2004: Second Ph.D., South Valley University 2003: Assistant Professor 2000: Visiting Researcher, DeMontfort University, UK 1996-2003: Lecturer 1996: First Ph.D., Freie Universität Berlin 1994-1996: Research, Germany (30 months) 1989-1996: Assistant Lecturer 1989: M.Sc., Assiut University 1985-1989: Demonstrator 1984: B.Sc., Assiut University

---

Publication

Selected Recent Publications (2023-2026)

Saad Z. Rida, Anas A.M. Arafa, Hussein S. Husseina, Marwa M.M. Mostafa and Ismail Gad Ameen. Unveiling new approximate analytical solutions for reaction-diffusion problems in mathematical biology. Communications in Nonlinear Science and Numerical Simulation, No. 152, 109351, 2026.

Saad Z. Rida, Anas A.M. Arafa, Hussein S. Hussein, Ismail G. Ameen and Marwa M.M. Mostafa. Application of Second Kind Shifted Chebyshev Residual Power Series Method for Solving Time-Fractional Fokker Planck Models. Int. J. Appl. Comput. Math, 11:101, 2025.

Saad Z. Rida, Anas A.M. Arafa, Hussein S. Hussein, Ismail G. Ameen and Marwa M.M. Mostafa. Spectral shifted Chebyshev collocation technique with residual power series algorithm for time fractional problems. Scientific Reports, Volume 14, Article 8683, 2024.

A.M. Yousef, S.Z. Rida, H.M. Ali, A.S. Zaki. Stability, co-dimension two bifurcations and chaos control of a host-parasitoid model with mutual interference. Chaos, Solitons & Fractals, Volume 166, 112923, January 2023.

A. Hassan, A.A.M. Arafa, S.Z. Rida, M.A. Dagher, H.M. El Sherbiny. Adapting semi-analytical treatments to the time-fractional derivative Gardner and Cahn-Hilliard equations. Alexandria Engineering Journal, Volume 87, Pages 389-397, 2023.

Note: Due to length constraints, this represents a selection of Prof. Rida’s 150+ publications. The complete list includes papers from 1995-2026 covering fractional calculus, differential equations, soliton theory, bio-mathematics, epidemic modeling, nanofluid dynamics, and computational methods, published in journals including Physics Letters A, Applied Mathematics and Computation, Chaos Solitons & Fractals, Communications in Nonlinear Science and Numerical Simulation, and many others. The full publication list demonstrates sustained prolific output across four decades.

---

Research Impact

Prof. Rida’s 150+ publications demonstrate extraordinary productivity and impact across mathematical sciences. His work in fractional calculus has established theoretical foundations used globally. His epidemic models for HIV, Ebola, COVID-19, and other diseases provide mathematical frameworks for public health interventions. His publications in top-tier journals (Communications in Nonlinear Science, Scientific Reports, Chaos Solitons & Fractals) ensure international visibility. As Editor-in-Chief of three specialized journals, he shapes research directions in fractional calculus worldwide. His reviewer service for 22 journals demonstrates recognized expertise. His 30 completed Ph.D. and M.Sc. supervisions create a substantial research lineage multiplying his impact through trained researchers now contributing independently to mathematical sciences.

---

Innovation & Intellectual Property

Prof. Rida’s innovations include development of generalized Mittag-Leffler function methods, natural transform techniques for fractional equations, novel collocation methods, and hybrid analytical-numerical approaches. His work on explicit differential polynomials, Bell polynomials, and Rodrigues formulas for fractional orders represents fundamental mathematical innovation. His two e-learning courses (Differential and Integral Calculus I & II) represent pedagogical innovation making advanced mathematics accessible online.

---

Research Projects & Funding

Egyptian Government Grant (1994-1996, 30 months), DFG-supported project with Prof. B. Fiedler (1996, 4 months), Multiple international research visits and collaborations demonstrating sustained funding success.

---

Conference Contributions

Prof. Rida presented at the 2nd International Conference on Mathematics and Information Science (ICMIS2011) and numerous other venues, with several conference proceedings published in international journals.

---

Academic Excellence

Two Ph.D. degrees (rare achievement), Professor since 2012, Editor-in-Chief of three journals, Reviewer for 22 journals, 30 completed thesis supervisions, 150+ publications, International research collaborations across Germany and UK, Progressive career advancement through all academic ranks, Leadership in departmental and college administration.

---

Societal & Industry Contribution

Mathematical models for epidemic diseases inform public health policy. Fractional calculus applications advance engineering and physics. Training of 30 graduate students creates workforce for academia and industry. Editorial leadership ensures quality in mathematical research globally. Development of e-learning courses democratizes access to mathematics education.

---

Global Recognition

Publications in international journals with worldwide readership, International research collaborations (Germany, UK), Editor-in-Chief positions give global influence, Reviewer for major international journals, Doctoral research under renowned German mathematicians (Begehr, Schimming, Fiedler), Citations by international researchers, Contributions span four decades demonstrating sustained global impact.

Dr. Merga Dinssa Eticha, DEd

Assistant Professor | Biology Education | Science Education

Dr. Merga Dinssa Eticha is an accomplished Assistant Professor and Biology Lecturer at Shambu College of Teacher Education with an extraordinary 29 years of dedicated service in science education across Ethiopia. Born in Sago, Oromia, Dr. Eticha has devoted his career to advancing biology education through innovative pedagogical approaches, curriculum development, and leadership in teacher education. With a Doctor of Education (DEd) in Biology Education from Jimma University (2021-2025), Master of Education (M.Ed.) from Haramaya University (2005-2007), and Bachelor’s degree from Bahir Dar University (1998-2001), he brings comprehensive expertise in science education theory and practice. His research focuses on problem-solving methods, metacognitive scaffolding, conceptual change learning, and evidence-based instructional practices in biology education. Dr. Eticha has published three peer-reviewed articles in prestigious international journals including the Journal of Science Education and Technology (Springer) and Thinking Skills and Creativity, with two additional manuscripts currently under review. His innovative research on context-driven problem-solving methods with metacognitive scaffolding has demonstrated significant impact on student learning motivation, academic achievement, and conceptual understanding in biology. Currently serving as Biology Lecturer, Natural Sciences Stream Head, and Administrative Vice Dean at Shambu College of Teacher Education, he combines teaching excellence with administrative leadership and scholarly productivity. His 19 years in Colleges of Teacher Education and 10 years in high schools provide deep insights into the Ethiopian education system at multiple levels. As a peer reviewer for the Journal of Science Education and Technology and presenter at national research conferences, he contributes to the broader science education research community. His completion of advanced professional training in Grant Proposal Writing (2021) and Scientific Writing and Publication Ethics (2022) through Jimma University’s international collaborations demonstrates commitment to research excellence and scholarly integrity.

---

Professional Affiliations:

• Assistant Professor, Shambu College of Teacher Education
• Biology Lecturer, Natural Sciences Stream Head
• Administrative Vice Dean, Shambu College of Teacher Education
• Peer Reviewer, Journal of Science Education and Technology (Springer)
• Member of Jimma University Research Community

---

Education

Doctor of Education (DEd) in Biology Education

Jimma University, Ethiopia
2021 – 2025 (Gregorian Calendar) / 2013 – 2017 (Ethiopian Calendar)
Specialization: Biology Education, Science Education Pedagogy, Problem-solving Methods, Metacognitive Scaffolding

Master of Education (M.Ed.) in Biology Education

Haramaya University, Ethiopia
2005 – 2007 (Gregorian Calendar) / 1997 – 1999 (Ethiopian Calendar)
Specialization: Biology Education, Science Teaching Methods, Curriculum Development

Bachelor’s Degree in Education

Bahir Dar University, Ethiopia
1998 – 2001 (Gregorian Calendar) / 1991 – 1993 (Ethiopian Calendar)
Major: Biology Education

Diploma in Education

Bahir Dar University, Ethiopia
1994 – 1996 (Gregorian Calendar) / 1987 – 1988 (Ethiopian Calendar)
Teacher Training Diploma

Secondary Education (Grades 9-12)

Amuru Secondary School, Ethiopia
1990 – 1994 (Gregorian Calendar) / 1983 – 1986 (Ethiopian Calendar)

Primary Education (Grades 1-8)

Alibo Primary School, Ethiopia
1982 – 1990 (Gregorian Calendar) / 1975 – 1982 (Ethiopian Calendar)

---

Research Focus

Dr. Merga Dinssa Eticha’s research addresses critical challenges in science education pedagogy, focusing on evidence-based instructional strategies that enhance student learning and teacher effectiveness. His primary research areas include:

• Problem-Solving Methods in Biology Education: Development and implementation of context-driven problem-solving instructional approaches that connect biological concepts to students’ real-world experiences and local contexts
• Metacognitive Scaffolding: Research on metacognitive support systems that help students become aware of their own thinking processes, plan learning strategies, monitor comprehension, and evaluate understanding in biology learning
• Conceptual Change Learning: Investigation of how students’ pre-existing misconceptions about biological concepts can be effectively transformed into scientifically accurate understanding through targeted instructional interventions
• Student Learning Motivation: Examination of factors that enhance intrinsic and extrinsic motivation for biology learning, including the role of problem-solving approaches, active learning, and relevance to students’ lives
• Academic Achievement in Science Education: Research on evidence-based instructional practices that improve student performance, retention, and deep understanding of biological concepts
• Teacher Instructional Practices: Study of how innovative pedagogical approaches influence and transform teachers’ classroom practices, assessment methods, and professional development
• Science Education Technology: Application of educational technology and innovative teaching tools to enhance biology instruction and student engagement
• Curriculum Development and Implementation: Research on effective curriculum design, adaptation, and implementation strategies for biology education in Ethiopian contexts
• Teacher Education and Professional Development: Investigation of effective approaches for preparing pre-service teachers and supporting in-service teachers in adopting evidence-based instructional practices
• Context-Responsive Pedagogy: Development of culturally and contextually appropriate teaching methods that address the specific needs, resources, and contexts of Ethiopian schools and students

---

Experience

Biology Lecturer, Natural Sciences Stream Head & Administrative Vice Dean

Shambu College of Teacher Education, Oromia, Ethiopia
2010 (Gregorian Calendar) – Present / 2003 (Ethiopian Calendar) – Present

Dr. Eticha currently holds a triple role at Shambu College of Teacher Education, serving as Biology Lecturer teaching undergraduate courses in biological sciences and science education methods, Natural Sciences Stream Head coordinating all natural science programs including biology, chemistry, physics, and mathematics, and Administrative Vice Dean overseeing academic administration, quality assurance, faculty development, and institutional planning. In his teaching role, he prepares and delivers lectures, develops curriculum materials, supervises student teachers, conducts assessments, and mentors students. As Stream Head, he coordinates departmental activities, facilitates curriculum review, organizes professional development for science faculty, and ensures quality standards across natural science programs. As Administrative Vice Dean, he contributes to strategic planning, policy development, budget management, and institutional governance. This multifaceted role demonstrates his leadership capabilities and comprehensive understanding of teacher education.

Biology Instructor

Robe College of Teacher Education, Ethiopia
2009 – 2010 (Gregorian Calendar) / 1/7/2001 – 30/2/2003 (Ethiopian Calendar)

At Robe College of Teacher Education, Dr. Eticha taught biology courses to pre-service teachers, contributed to program development, and gained valuable experience in teacher preparation that informed his subsequent career advancement and research interests.

Biology Teacher & Department Head

Gida High School, Ethiopia
2001 – 2009 (Gregorian Calendar) / 1/11/93 – 30/06/2001 (Ethiopian Calendar)

During this extended eight-year tenure, Dr. Eticha taught biology to secondary school students while simultaneously serving as Department Head, coordinating science teachers, developing curriculum materials, organizing laboratory activities, and contributing to school improvement initiatives. This experience provided deep insights into secondary-level biology education that inform his current work in teacher preparation.

Biology Teacher

Guliso High School, Ethiopia
1997 – 1998 (Gregorian Calendar) / 1/11/88 – 30/12/90 (Ethiopian Calendar)

Dr. Eticha began his teaching career immediately after completing his Diploma, teaching biology at Guliso High School and developing foundational pedagogical skills that launched his distinguished career in education.

---

Research Timeline

2021 – 2025: DEd Studies in Biology Education, Jimma University

2010 – Present: Biology Lecturer, Natural Sciences Stream Head & Administrative Vice Dean, Shambu College of Teacher Education

2009 – 2010: Biology Instructor, Robe College of Teacher Education

2005 – 2007: M.Ed. Studies in Biology Education, Haramaya University

2001 – 2009: Biology Teacher & Department Head, Gida High School

1998 – 2001: Bachelor’s Degree Studies, Bahir Dar University

1997 – 1998: Biology Teacher, Guliso High School

1994 – 1996: Diploma Studies, Bahir Dar University

1990 – 1994: Secondary Education, Amuru Secondary School

1982 – 1990: Primary Education, Alibo Primary School

Total Service: 29 years of teaching experience (19 years in Colleges of Teacher Education, 10 years in High Schools)

---

Publication

Peer-Reviewed Journal Articles

Eticha, M. D., Hunde, A. B., & Ketema, T. (2024). Designing a context-driven problem-solving method with metacognitive scaffolding experience intervention for biology instruction. Journal of Science Education and Technology, 33(6), 811–822.

Eticha, M. D., Hunde, A. B., & Ketema, T. (2025). Application of a designed problem-solving method with metacognitive scaffolding in biology instruction to enhance students’ learning motivation and academic achievement. Journal of Education, 205(4), 315–329.

Eticha, M. D., Hunde, A. B., & Ketema, T. (2025). The role of a designed problem-solving method with metacognitive scaffolding on students’ conceptual change learning and teachers’ instructional practices in biology. Thinking Skills and Creativity, Article 102033.

Manuscripts Under Review

Two manuscripts are currently under review for publication (specific titles and journals not provided in the CV).

Conference Presentations

Eticha, M. D. Research presentation at Jimma University Research Conference (JURC 2025), Jimma University, Ethiopia, 2025.

Eticha, M. D. Research presentation at First Annual Research Symposium of Shambu College of Teacher Education, Shambu, Ethiopia, 2024.

---

Research Impact

Dr. Merga Dinssa Eticha’s research makes significant contributions to science education theory and practice, particularly in the Ethiopian context where evidence-based pedagogical innovations are critically needed. His publication in the Journal of Science Education and Technology, a prestigious Springer journal with international readership, ensures global visibility of his work and positions Ethiopian science education research within international scholarly conversations. His development of a context-driven problem-solving method with metacognitive scaffolding represents a significant pedagogical innovation that addresses the specific needs of Ethiopian students while drawing on international best practices in science education. His research demonstrates that this innovative approach significantly enhances students’ learning motivation, addressing a critical challenge in Ethiopian schools where student engagement and persistence in science subjects remain concerns. His evidence that the intervention improves academic achievement provides empirical support for policy changes and resource allocation toward evidence-based instructional practices. His investigation of conceptual change learning addresses fundamental challenges in biology education, where students’ misconceptions about biological processes, evolution, genetics, and other core concepts often persist despite instruction. His research on how the intervention influences teachers’ instructional practices has cascading impact, as transformed teaching approaches benefit not only students in the study but future cohorts of students these teachers will instruct. His publication in Thinking Skills and Creativity, a journal focused on higher-order thinking, connects his work to broader conversations about developing students’ cognitive capabilities beyond rote memorization. His research addresses equity concerns, as improved instructional methods particularly benefit students who may lack resources for private tutoring or supplementary materials. His presentation at Jimma University Research Conference (JURC 2025) disseminates findings to the Ethiopian research community, facilitating adoption by other teacher educators and researchers. His presentation at Shambu College’s First Annual Research Symposium contributes to building research culture within his institution. His service as peer reviewer for Journal of Science Education and Technology indicates recognition of his expertise by the international science education research community. His work provides empirical foundation for curriculum reform, teacher professional development programs, and textbook development in Ethiopian biology education.

---

Innovation & Intellectual Property

Dr. Merga Dinssa Eticha’s primary innovation is the development of a context-driven problem-solving method with metacognitive scaffolding for biology instruction. This pedagogical innovation represents a systematic approach to teaching that integrates multiple evidence-based practices into a coherent instructional framework. The context-driven component ensures that biological concepts are taught through problems and examples relevant to Ethiopian students’ daily experiences, local environments, and cultural contexts, making abstract scientific concepts more accessible and meaningful. The problem-solving method provides structured approaches for students to engage actively with biological content, developing scientific reasoning and inquiry skills rather than passively receiving information. The metacognitive scaffolding component provides systematic support for students to become aware of their own thinking processes, plan their learning strategies, monitor their comprehension, and evaluate their understanding, thereby developing learning skills that transfer beyond biology to other subjects and lifelong learning. The innovation addresses multiple challenges simultaneously—low motivation, poor achievement, persistent misconceptions, and ineffective teaching practices—through a single integrated intervention, demonstrating efficiency and practical feasibility for resource-constrained Ethiopian schools. While not protected through patents or commercial licensing, this pedagogical innovation constitutes valuable intellectual property that could be disseminated through teacher training programs, curriculum materials, professional development workshops, and policy guidelines. His completion of Grant Proposal Writing training (2021) positions him to seek funding for scaling up the intervention across multiple schools and regions. His training in Scientific Writing and Publication Ethics (2022) ensures that his innovations are disseminated through high-quality publications that meet international standards. Future intellectual property development could include the creation of teacher guides, student workbooks, assessment instruments, and multimedia resources that operationalize the problem-solving method with metacognitive scaffolding for widespread adoption in Ethiopian biology classrooms.

---

Research Projects & Funding

While the provided CV does not include detailed information about externally funded research projects, Dr. Eticha’s doctoral research (2021-2025) at Jimma University represents a significant research project involving design, implementation, and evaluation of an instructional intervention across multiple schools. His DEd research likely involved institutional support from Jimma University including access to research facilities, supervisory expertise, and possibly research allowances for data collection expenses. His completion of Grant Proposal Writing training in 2021, organized by Jimma University in collaboration with international partners, indicates preparation for securing external research funding and suggests awareness of funding opportunities from Ethiopian government agencies, international development organizations, and research foundations. His training in Scientific Writing and Publication Ethics (2022), also through Jimma University’s international partnerships, represents capacity-building investment that enhances his competitiveness for future research grants. His current position as Administrative Vice Dean at Shambu College may provide access to institutional research funds for faculty development and scholarly activities. His research collaboration with Dr. Adula Bekele Hunde from Oslo University and Prof. Tsige Ketema from Jimma University suggests potential for international collaborative research projects that could attract funding from Norwegian development agencies, European research programs, or bilateral research agreements. His presentation at national research conferences indicates engagement with research funding agencies and potential exposure to funding opportunities. As he advances in his career, his publication record and demonstrated research productivity position him well for securing competitive research grants from sources such as the Ethiopian Ministry of Science and Higher Education, African Union research programs, UNESCO education initiatives, or international development agencies supporting education in Africa. This section can be expanded as information about specific funded projects becomes available.

---

Conference Contributions

Dr. Merga Dinssa Eticha has contributed to the dissemination of research findings through presentations at significant academic conferences in Ethiopia. His presentation at the Jimma University Research Conference (JURC 2025) represents engagement with one of Ethiopia’s premier research universities and contribution to the national conversation on education research. JURC brings together researchers from across Ethiopia and international collaborators, providing a platform for sharing innovative research with diverse academic audiences including education researchers, policymakers, and university administrators. His presentation at the First Annual Research Symposium of Shambu College of Teacher Education (2024) demonstrates leadership in building research culture within his own institution. As a senior faculty member and Administrative Vice Dean, his research presentation at the institutional symposium models scholarly productivity for junior colleagues and pre-service teachers, encouraging research engagement across the college community. This institutional symposium likely brought together faculty, students, and educational stakeholders from the region, providing opportunities for feedback, collaboration, and dissemination of research findings to local educators who can implement evidence-based practices. His conference presentations complement his journal publications by enabling direct interaction with audiences, facilitating discussion of methodological details, addressing questions about implementation challenges, and building research networks. These presentations may lead to future research collaborations, invitations for additional presentations, or opportunities to contribute to multi-institutional research projects. As his research program develops, he may present at international conferences such as the African Conference on Research in Chemical Education (ACRICE), International Seminar on Science Education, or global science education conferences organized by associations like NARST (National Association for Research in Science Teaching) or ESERA (European Science Education Research Association), further expanding the reach and impact of his work.

---

Academic Excellence

Dr. Merga Dinssa Eticha has demonstrated sustained academic excellence throughout his extended educational journey and professional career. His completion of a Doctor of Education (DEd) from Jimma University, one of Ethiopia’s leading research universities, represents the highest academic achievement in his field and demonstrates sustained scholarly commitment over four years of advanced doctoral study. His Master of Education (M.Ed.) from Haramaya University, another prestigious Ethiopian institution, provided advanced preparation in biology education pedagogy and research methods. His Bachelor’s degree from Bahir Dar University, one of Ethiopia’s oldest and most respected universities, provided a strong foundation in biological sciences and education. His progression through Diploma, Bachelor’s, Master’s, and Doctoral degrees while simultaneously maintaining teaching and administrative responsibilities demonstrates exceptional dedication and work capacity. His publication of three peer-reviewed articles in international journals including Journal of Science Education and Technology (Springer) and Thinking Skills and Creativity represents extraordinary achievement for an educator based at a regional college in Ethiopia, overcoming challenges of limited research resources, library access, and connectivity that researchers at well-resourced universities take for granted. His appointment as peer reviewer for Journal of Science Education and Technology indicates recognition by the international editorial community of his expertise and judgment in evaluating science education research. His completion of advanced professional training in Grant Proposal Writing and Scientific Writing and Publication Ethics through Jimma University’s international collaborations demonstrates commitment to research excellence and adherence to global scholarly standards. His 29 years of continuous service in education, including 19 years in teacher education, reflects sustained commitment to the profession despite challenges and limited resources common in Ethiopian education. His progression from classroom teacher to department head to college lecturer to stream head to administrative vice dean represents steady career advancement through demonstrated excellence in teaching, leadership, and scholarship. His trilingual capabilities in Afan Oromo, English, and Amharic enable him to serve diverse student populations and access scholarly literature in multiple languages. His active engagement in reading and visiting natural and historical places reflects intellectual curiosity and commitment to lifelong learning beyond formal education.

---

Societal & Industry Contribution

Dr. Merga Dinssa Eticha’s work makes profound contributions to educational quality, teacher preparation, and human capital development in Ethiopia and the broader East African region. His 29 years of teaching experience have directly impacted thousands of students across primary schools, secondary schools, and colleges of teacher education, shaping their understanding of biological sciences and scientific literacy. His 19 years in teacher education represents particularly high-impact contribution, as the pre-service teachers he prepares go on to teach thousands of students throughout their careers, creating a multiplier effect that extends his influence across the Ethiopian education system. His role as Natural Sciences Stream Head at Shambu College ensures quality across all natural science programs including biology, chemistry, physics, and mathematics, strengthening the preparation of science teachers in the region. His position as Administrative Vice Dean contributes to institutional governance, quality assurance, and strategic planning that benefits the entire college community. His research on problem-solving methods with metacognitive scaffolding provides practical, evidence-based instructional strategies that can be adopted by biology teachers across Ethiopia, improving educational quality without requiring expensive resources or infrastructure. His development of context-driven approaches that connect biological concepts to local Ethiopian contexts makes science education more relevant and accessible to students, potentially increasing science literacy and encouraging students to pursue science careers. His research on enhancing learning motivation addresses critical challenges of student disengagement and dropout rates in Ethiopian schools, with implications for educational equity and social mobility. His investigation of conceptual change learning contributes to addressing misconceptions that may have public health, agricultural, and environmental implications when students carry incorrect biological understandings into adulthood. His presentation at institutional and national conferences disseminates research findings to educators who can implement evidence-based practices, directly bridging the gap between research and practice. His service as peer reviewer contributes to maintaining quality standards in international science education research. His completion of training in grant proposal writing positions him to secure funding for educational improvement projects that benefit Shambu College and surrounding schools. His trilingual capabilities enable him to serve both Afan Oromo-speaking and Amharic-speaking student populations, promoting educational access for linguistic minorities. Through his teaching, research, and leadership, Dr. Eticha contributes to Ethiopia’s development goals in education, science and technology capacity building, and preparation of the skilled workforce needed for economic development and improved quality of life.

---

Global Recognition

Dr. Merga Dinssa Eticha has achieved significant international recognition through his publications in globally recognized journals and his engagement with international research communities. His publication in the Journal of Science Education and Technology, published by Springer, one of the world’s largest academic publishers, ensures global distribution and readership of his work. This journal is indexed in major databases including Web of Science, Scopus, and ERIC (Education Resources Information Center), making his research discoverable to scholars worldwide. His publication in Thinking Skills and Creativity, another internationally respected journal, further establishes his presence in global scholarly conversations about higher-order thinking and innovative pedagogy. His research addresses challenges relevant not only to Ethiopia but to science education globally, particularly in low- and middle-income countries facing similar issues of limited resources, large class sizes, and the need for culturally responsive pedagogy. His development of context-driven problem-solving methods provides a model that could be adapted to other African countries and developing nations facing similar educational challenges. His appointment as peer reviewer for Journal of Science Education and Technology represents recognition by the international editorial community and positions him as a contributor to global knowledge quality control in science education research. His collaboration with Dr. Adula Bekele Hunde from Oslo University, Norway, represents international research partnership that facilitates knowledge exchange between Ethiopian and European research contexts. His collaboration with Prof. Tsige Ketema from Jimma University connects him to Ethiopia’s premier research networks which often have international linkages. His completion of training through Jimma University’s international partnerships exposes him to global best practices in research methodology, publication ethics, and grant writing. His presentation at Jimma University Research Conference likely brought him into contact with international researchers and development partners engaged in education research in Ethiopia. His work contributes to the growing body of science education research from Africa, a region historically underrepresented in international research literature, thereby diversifying global knowledge and challenging Western-centric perspectives in education research. While his institutional base is in Ethiopia, his research methodology, theoretical frameworks, and findings have relevance for international audiences concerned with improving science education quality, enhancing student motivation, facilitating conceptual change, and supporting teacher professional development. As he continues his research career, opportunities may arise for international conference presentations, visiting scholar positions at foreign universities, or participation in international collaborative research projects that would further expand his global recognition and enable him to contribute to international science education policy discussions.

Dr. G.A. Arun Kumar |Associate Professor | VLSI Design | Quantum-dot Cellular Automata

Dr. G.A. Arun Kumar is a distinguished Associate Professor in the Department of Electronics and Communication Engineering at Aditya University, Surampalem, India, with 13 years of comprehensive teaching, research, and administrative experience. With a Ph.D. in VLSI from Pondicherry University (2018-2022) and an M.Tech in Embedded Systems from JNTU Kakinada (78.07%), Dr. Arun Kumar has established himself as a leading researcher in Quantum-dot Cellular Automata (QCA) technology and VLSI design. His research portfolio includes 16 publications in prestigious international journals including Elsevier, Springer, and SCI-indexed venues, with a focus on novel architectures for nanoscale computing, power-efficient designs, and quantum computing applications. He has presented his work at numerous national and international conferences, contributing to the advancement of semiconductor technology and digital circuit design. Currently serving as Training and Placement Officer (TPO) since 2018, Dr. Arun Kumar bridges academic excellence with industry requirements, facilitating student career development and corporate partnerships. As a Ph.D. supervisor for research scholars from JNTUK and GIET Gunupur, he mentors the next generation of VLSI researchers. His expertise spans VLSI signal processing, digital integrated circuits, quantum computing, machine learning, and embedded systems. Ratified as Assistant Professor by JNTUK Kakinada in 2016, he has progressively advanced to his current position through demonstrated excellence in teaching, research, and institutional service. His work addresses critical challenges in nanoscale electronics, energy-efficient computing, and emerging semiconductor technologies, contributing to both fundamental knowledge and practical applications in the rapidly evolving field of microelectronics.

---

Online Profiles

Scopus ID: 57220244542

Google Scholar: https://scholar.google.com/citations?user=BLyw-c0AAAAJ&hl=en

Professional Affiliations:

• Associate Professor, Department of Electronics and Communication Engineering, Aditya University
• Active Member, IETE (The Institution of Electronics and Telecommunication Engineers) since 2016
• Active Member, ISTE (Indian Society for Technical Education) since February 2022
• Active Member, IAENG (International Association of Engineers) since February 2022
• Active Member, IEI (The Institution of Engineers, India) since 2024
• Ph.D. Research Supervisor, JNTUK
• Co-Supervisor for Ph.D. Research Scholar, GIET Gunupur, Orissa

Administrative Roles:

• Training and Placement Officer (TPO), Aditya Campus since 2018
• Former College Alumni Coordinator
• Former Website Coordinator
• Former MW & OC Lab In-charge (2013-2021)

---

Education

Doctor of Philosophy (Ph.D.) in VLSI

Pondicherry University, Puducherry, India
2018 – 2022
Specialization: Very Large Scale Integration (VLSI) Design, Quantum-dot Cellular Automata, Nanoscale Computing

Master of Technology (M.Tech.) in Embedded Systems

B.V.C. Engineering College, affiliated to JNTU Kakinada
2010 – 2012
Percentage: 78.07%

Bachelor of Technology (B.Tech.) in Electronics and Communication Engineering

Aditya Engineering College, affiliated to JNTU Kakinada
2005 – 2009
Percentage: 75.16%

Intermediate (10+2)

Santinikethan Junior College, Board of Intermediate Education
2003 – 2005
Percentage: 85.8%

Secondary School Certificate (SSC)

Municipal High School, Board of Secondary Education
2002 – 2003
Percentage: 79.8%

---

Research Focus

Dr. G.A. Arun Kumar’s research addresses fundamental challenges in nanoscale electronics and emerging computing paradigms. His primary research areas include:

• Quantum-dot Cellular Automata (QCA): Development of novel circuit architectures using QCA technology for ultra-low power, nanoscale computing, including adders, multipliers, comparators, and memory elements
• VLSI Design and Optimization: Research on power-efficient, area-optimized, and high-speed digital circuit designs for VLSI applications, including clock gating, multi-bit flip-flops, and advanced synthesis techniques
• Nanoscale Computing Architectures: Investigation of emerging computing paradigms at the nanoscale, including quantum computing, neuromorphic computing, and beyond-CMOS technologies
• Arithmetic Circuit Design: Development of optimized arithmetic units including adders, multipliers (Wallace tree, Baugh-Wooley), comparators, and floating-point processors for computational efficiency
• Memristor-Based Computing: Exploration of memristor logic for memory and logic applications, including CAM cell designs and reconfigurable computing architectures
• Power Dissipation Analysis: Comprehensive energy analysis of digital circuits at nanoscale, developing methodologies for minimizing power consumption in QCA and conventional CMOS designs
• Digital Signal Processing Architectures: Design of FFT (Fast Fourier Transform) processors and signal processing units optimized for power, area, and delay using novel architectural approaches
• Biomedical Signal Processing: Application of advanced signal processing techniques for EEG artifact removal, electrooculogram (EOG) elimination, and biomedical instrumentation
• High-Entropy Alloys and Materials: Interdisciplinary research on microstructures and physical properties of advanced materials for semiconductor applications
• 3D IC Integration: Investigation of Through-Silicon Via (TSV) technology, thermal management, and noise coupling in three-dimensional integrated circuits
• Quantum Computing and Machine Learning: Exploration of quantum algorithms, quantum machine learning, and their applications in computational problems

---

Experience

Associate Professor

Aditya University, Surampalem, Andhra Pradesh, India
May 26, 2025 – Present

Dr. Arun Kumar currently serves as Associate Professor in the Department of Electronics and Communication Engineering at Aditya University, conducting advanced research in VLSI and QCA technology, teaching graduate and undergraduate courses, supervising doctoral research, and contributing to institutional development.

Associate Professor

Aditya College of Engineering & Technology (Autonomous), Andhra Pradesh, India
February 22, 2023 – May 25, 2025

Following his promotion to Associate Professor, Dr. Arun Kumar continued his excellence in teaching and research while expanding his administrative responsibilities and research supervision activities.

Assistant Professor

Aditya College of Engineering & Technology (Autonomous), Andhra Pradesh, India
May 10, 2012 – February 21, 2023

During this extensive tenure as Assistant Professor, Dr. Arun Kumar established his research program in QCA and VLSI design, completed his Ph.D., published extensively in international journals, served as MW & OC Lab in-charge (2013-2021), and was ratified as Assistant Professor by JNTUK in 2016. He also assumed the role of Training and Placement Officer in 2018 and served as Alumni Coordinator and Website Coordinator.

Assistant Professor

Kakinada Institute of Technological Sciences, Ramachandrapuram, Andhra Pradesh, India
August 2009 – May 2010

Dr. Arun Kumar began his academic career immediately after completing his B.Tech., teaching electronics and communication engineering courses and developing his pedagogical skills.

Training and Placement Officer (TPO)

Aditya Campus, Andhra Pradesh, India
2018 – Present

In this crucial administrative role, Dr. Arun Kumar coordinates campus recruitment activities, builds relationships with corporate partners, facilitates student career development, organizes pre-placement training, and ensures successful placement outcomes for graduates.

Ph.D. Research Supervisor

JNTUK, Kakinada, Andhra Pradesh, India
Current

Dr. Arun Kumar serves as Research Supervisor for Mrs. L. Keerthi, Research Scholar of JNTUK, guiding doctoral research in electronics and VLSI design.

Ph.D. Co-Supervisor

GIET Gunupur, Orissa, India
Current

Dr. Arun Kumar serves as Co-Supervisor for Mr. E. Atcharao, Research Scholar of GIET Gunupur, contributing to interdisciplinary doctoral research supervision.

---

Research Timeline

May 2025 – Present: Associate Professor, Aditya University

February 2023 – May 2025: Associate Professor, Aditya College of Engineering & Technology (A)

2018 – 2022: Ph.D. Studies in VLSI, Pondicherry University

2018 – Present: Training and Placement Officer (TPO)

2016: Ratified as Assistant Professor by JNTUK, Kakinada

2013 – 2021: MW & OC Lab In-charge

May 2012 – February 2023: Assistant Professor, Aditya College of Engineering & Technology (A)

2010 – 2012: M.Tech. in Embedded Systems, B.V.C. Engineering College

August 2009 – May 2010: Assistant Professor, Kakinada Institute of Technological Sciences

2005 – 2009: B.Tech. in Electronics and Communication Engineering, Aditya Engineering College

---

Publication

International Journal Publications

Gudivada, A. Arunkumar, Gummarekula Sattibabu, and Anil Kumar Relangi. “Power, area, and delay efficient synchronous ring counter using clock gating and multi-bit flip-flops in QCA technology.” International Journal of Electronics Letters (2025): 1-11. (SCOPUS)

Bhoopathi, R., C. Sailaja, D. Jennifer, and A. Arunkumar Gudivada. “A Study On Microstructures And Physical Properties of High-Entropy Alloys And Materials.” Oxidation Communications 48, no. 1 (2025). (SCOPUS)

Noorbasha, Sayedu Khasim, and G. A. Arunkumar. “VME-EFD: A novel framework to eliminate the Electrooculogram artifact from single-channel EEGs.” Biomedical Physics & Engineering Express 11, no. 1 (2024): 015041. (SCOPUS)

Gudivada, A.A., and D. Aashritha. “Design of a CAM cell from SRAM using HDL memristor logic synthesizer.” Russian Microelectronics (2024). (SCOPUS)

Noorbasha, Sayedu Khasim, and Arun Kumar. “VME-EFD: A novel framework to eliminate the Electrooculogram artifact from single-channel EEGs.” Biomedical Physics & Engineering Express (2024). https://doi.org/10.1088/2057-1976/ad9bb6. (SCOPUS)

Gudivada, A.A., and Sudha, G.F. “STQCA-FFT: A fast fourier transform architecture using stack-type QCA approach with power and delay reduction.” Journal of Computational Science, Elsevier, 60, p.101594 (2022). (SCOPUS, SCI)

Meriga, Caleb, Ravi Teja Ponnuri, B. V. V. Satyanarayana, A. Arun Kumar Gudivada, Asisa Kumar Panigrahy, and M. Durga Prakash. “A novel teeth junction less gate all around FET for improving electrical characteristics.” Silicon (2021): 1-6. (SCOPUS, SCI)

Gudivada, A.A., and Sudha, G.F. “Novel optimized low power design of single-precision floating-point adder using Quantum-dot Cellular Automata.” Journal of Supercomputing (2021). https://doi.org/10.1007/s11227-021-04089-5. (SCOPUS, SCI)

Gudivada A. Arunkumar, and Gnanou Florence Sudha. “Novel optimized tree-based stack-type architecture for 2n-bit comparator at nanoscale with energy dissipation analysis.” The Journal of Supercomputing, SPRINGER (2020): 1-22. (SCOPUS, SCI)

Gudivada A. Arunkumar, and Gnanou Florence Sudha. “A systematic review on full adder designs in Quantum-dot Cellular Automata.” Materials Today: Proceedings, ELSEVIER (2020). (SCOPUS)

Gudivada, A. Arunkumar, K. Jayaram Kumar, Srinivasa Rao Jajula, Durga Prasad Siddani, Praveen Kumar Poola, Varun Vourganti, and Asisa Kumar Panigrahy. “Design of area-efficient high speed 4×4 Wallace tree multiplier using quantum-dot cellular automata.” Materials Today: Proceedings, ELSEVIER (2020). (SCOPUS)

Sanipini, Venkata Kiran, Banothu Rakesh, Aruna Jyothi Chamanthula, N. Santoshi, A. Arunkumar Gudivada, and Asisa Kumar Panigrahy. “Thermal management in TSV based 3D IC Integration: A survey.” Materials Today: Proceedings, ELSEVIER (2020). (SCOPUS)

Navaneetha, Alluri, A. Kishore Reddy, S. Aruna Deepthi, Ch Usha Kumari, Praveen Kumar Poola, A. Arunkumar Gudivada, Matta Durga Prakash, and Asisa Kumar Panigrahy. “Performance evaluation of noise coupling on Germanium based TSV filled material for future IC integration technique.” Materials Today: Proceedings, ELSEVIER (2020). (SCOPUS)

Gudivada A. Arunkumar, and Gnanou Florence Sudha. “Design of Baugh–Wooley multiplier in quantum-dot cellular automata using a novel 1-bit full adder with power dissipation analysis.” SN Applied Sciences, SPRINGER 2.5 (2020): 1-13. (SCOPUS)

National and International Conference Publications

T. V. Reddy, R. Kandadi, R. Suresh, G. A. Arunkumar, S. R. Kalli, and Srikar.D. “Design, modeling and comparative analysis of SRAM performance and functionality under the Subthreshold regime for various technologies.” 2025 Fourth International Conference on Smart Technologies, Communication and Robotics (STCR), Sathyamangalam, India, 2025, pp. 1-6, doi: 10.1109/STCR62650.2025.11020448. (SCOPUS)

G. A. Arunkumar, A. Eswar, G. Sattibabu, and V. Ramatulasi. “ST-QCA based error free and area efficient 4:2 Compressor design.” First International Conference on Semiconductor Materials Packaging, AIML, Reconfigurable VLSI Architectures for IOT, Future Communication Technologies (SMART-2024), Hyderabad, India, 19-20 September 2024 in association with Taylor and Francis. (SCOPUS)

A. A. Gudivada, K. S. S. Supraja, and V. C. Prakash. “A more generalized algorithm of Vedic sutra: Urdhva-Tiryagbhyam for 2n-bit square calculation using Quantum-dots.” 2023 Second International Conference on Advances in Computational Intelligence and Communication (ICACIC), Puducherry, India, 2023, pp. 1-6, doi: 10.1109/ICACIC59454.2023.10435214. (SCOPUS)

Gudivada A.A., and Sudha G.F. “Single precision floating-point multiplier design using Quantum-dot Cellular Automata with power dissipation analysis.” International Conference on Advances in Signal Processing and Communication Engineering (ICASPACE 2021), MGIT, Hyderabad, 29th to 31st July 2021. Lecture Notes in Electrical Engineering. Springer. (SCOPUS)

Surya, Sri Sai, A. Arun Kumar Gudivada, and Durgesh Nandan. “Systematic Review on Full-Subtractor Using Quantum-Dot Cellular Automata (QCA).” Proceedings of International Conference on Recent Trends in Machine Learning, IoT, Smart Cities and Applications, pp. 619-626. Springer, Singapore (2020). (SCOPUS)

Bhanu, K.V., Gudivada, A.A.K., and Durgesh Nandan. “Analysis of Various Multipliers in Quantum Cellular Automata.” In: Sherpa, K.S., Bhoi, A.K., Kalam, A., Mishra, M.K. (eds) Advances in Smart Grid and Renewable Energy. ETAEERE 2020. Lecture Notes in Electrical Engineering, vol 691. Springer, Singapore (2021). (SCOPUS)

Phanindra, D.V.S., Gudivada, A.A.K., and Durgesh Nandan. “Analysis of Reversible Square Using QCA.” In: Sherpa, K.S., Bhoi, A.K., Kalam, A., Mishra, M.K. (eds) Advances in Smart Grid and Renewable Energy. ETAEERE 2020. Lecture Notes in Electrical Engineering, vol 691. Springer, Singapore (2021). (SCOPUS)

Gudivada, A.A. “Fault Secure and Power efficiency RTL and CED Technique with runtime adaptability.” 2nd National Conference on Current Trends in Engineering and Technology (NCCTET-2K19), Srinivasa Institute of Engineering and Technology, Amalapuram, 15-16 March 2019.

Gudivada, A.A. “A Novel Hybrid CMOS Full Adder Design.” Two Day National Conference on Emerging Technologies in Electronics and Communications (NCETEC-2K11), BVCEC, Odalarevu, 3rd & 4th December 2011.

---

Research Impact

Dr. G.A. Arun Kumar’s research has made significant contributions to the field of nanoscale electronics and Quantum-dot Cellular Automata technology. His work published in high-impact journals including Journal of Computational Science (Elsevier, SCI), Journal of Supercomputing (Springer, SCI), and Silicon demonstrates international recognition of his research quality and innovation. His pioneering research on QCA-based arithmetic circuits addresses critical challenges in power consumption and area efficiency for future nanoscale computing systems. The STQCA-FFT architecture published in Journal of Computational Science represents a breakthrough in signal processing hardware design, offering significant power and delay reductions compared to conventional approaches. His systematic reviews on full adder designs in QCA, published in Materials Today: Proceedings, provide comprehensive knowledge synthesis that guides future research directions in the field. His work on floating-point arithmetic units using QCA technology advances the possibility of implementing complex computational operations at the nanoscale with ultra-low power consumption. His research on 3D IC integration, TSV technology, and thermal management contributes to addressing practical challenges in next-generation semiconductor manufacturing. His interdisciplinary work on biomedical signal processing, specifically the VME-EFD framework for electrooculogram artifact removal from EEG signals, demonstrates the application of advanced signal processing for healthcare applications. His contributions to memristor-based CAM cell design explore emerging non-volatile memory technologies. His research on high-entropy alloys expands into materials science, contributing to the development of advanced materials for semiconductor applications. With 16 international journal publications and 9 conference papers, all indexed in SCOPUS, his work ensures global visibility and influence. His citation metrics on Google Scholar reflect growing recognition of his contributions. His role as Ph.D. supervisor ensures that his research impact extends through mentoring the next generation of researchers. His work provides both theoretical foundations and practical design methodologies that can be implemented in industry settings.

---

Innovation & Intellectual Property

While Dr. Arun Kumar’s curriculum vitae does not list patents or commercial products, his research contributions represent significant intellectual innovations in VLSI design and QCA technology. His novel stack-type QCA architectures provide methodological innovations that enable more efficient implementation of complex digital circuits at the nanoscale. His design of optimized tree-based comparators, Wallace tree multipliers, and Baugh-Wooley multipliers in QCA technology represents architectural innovations that could be incorporated into future nanoscale processor designs. His STQCA-FFT (Stack-Type QCA Fast Fourier Transform) architecture represents a novel approach to signal processing implementation that could be protected through intellectual property if commercialized. His work on clock gating and multi-bit flip-flops in QCA technology for ring counters provides practical design techniques that improve power efficiency. His development of error-free and area-efficient compressor designs contributes to arithmetic circuit optimization. His generalized algorithm for Vedic sutra-based square calculation using quantum dots represents algorithmic innovation merging ancient mathematical techniques with cutting-edge nanotechnology. His VME-EFD framework for biomedical signal processing could have commercial applications in medical devices and brain-computer interfaces. His use of memristor logic synthesizers for CAM cell design from SRAM represents innovation in memory architecture. His research methodologies, simulation frameworks, and design optimization techniques constitute intellectual contributions that advance the field. As he continues his research career, there may be opportunities to translate these innovations into patents, licensing agreements, or technology transfer to semiconductor companies. His expertise positions him well for collaborative R&D projects with industry partners that could result in commercializable intellectual property.

---

Research Projects & Funding

The provided curriculum vitae does not include detailed information about externally funded research projects or grants secured. However, Dr. Arun Kumar’s extensive research output suggests participation in institutional research initiatives and potential industry collaborations. His Ph.D. research at Pondicherry University (2018-2022) would have been supported through university research infrastructure and possibly external fellowships. His role as Ph.D. supervisor for research scholars from JNTUK and GIET Gunupur indicates involvement in institutional research programs. His position as Associate Professor at an autonomous institution likely provides access to institutional research funds and faculty development grants. His extensive NPTEL certifications in quantum computing, machine learning, and VLSI design represent significant professional development investments. His participation in faculty development programs organized by E & ICT Academy, NIT Warangal and other premier institutions indicates access to government-funded capacity building initiatives. His work with specialized VLSI design tools including Mentor Graphics, Cadence Virtuoso, and Synopsys suggests access to expensive software licenses typically funded through institutional or industrial partnerships. His publications in collaboration with researchers from multiple institutions indicate possible collaborative research projects. As he advances in his career, there may be opportunities to apply for external research funding from agencies such as DST (Department of Science and Technology), SERB (Science and Engineering Research Board), DRDO (Defence Research and Development Organisation), and industry R&D partnerships. His established research record and growing citation metrics position him well for securing competitive research grants as principal investigator. This section can be expanded as information about specific funded projects becomes available.

---

Conference Contributions

Dr. G.A. Arun Kumar has been active in disseminating his research through peer-reviewed conference presentations at national and international venues. His 2025 presentation at the Fourth International Conference on Smart Technologies, Communication and Robotics (STCR) in Sathyamangalam addressed SRAM performance analysis under subthreshold regime, contributing to low-power design methodologies. His presentation at the First International Conference on Semiconductor Materials Packaging, AIML, and Reconfigurable VLSI Architectures (SMART-2024) in Hyderabad showcased his ST-QCA based compressor design, demonstrating error-free and area-efficient approaches. His 2023 presentation at the Second International Conference on Advances in Computational Intelligence and Communication (ICACIC) in Puducherry presented a generalized Vedic algorithm for quantum-dot-based square calculation. His 2021 presentation at the International Conference on Advances in Signal Processing and Communication Engineering (ICASPACE) at MGIT Hyderabad addressed floating-point multiplier design with power dissipation analysis. His 2020 presentations at Springer conferences on Recent Trends in Machine Learning, IoT, Smart Cities and Applications, and Advances in Smart Grid and Renewable Energy contributed systematic reviews and analyses of QCA-based circuits. His 2019 presentation at NCCTET addressed fault-secure power efficiency techniques with runtime adaptability. His 2011 presentation at NCETEC showcased his early research on CMOS full adder design. These conference contributions demonstrate sustained engagement with the research community, regular dissemination of findings, and contribution to advancing knowledge in VLSI design, QCA technology, and related fields. His conference papers published in prestigious series including Lecture Notes in Electrical Engineering (Springer) and IEEE conference proceedings ensure archival preservation and accessibility of his work.

---

Academic Excellence

Dr. G.A. Arun Kumar has demonstrated consistent academic excellence throughout his educational and professional career. His completion of Ph.D. in VLSI from Pondicherry University, a central university with national reputation, represents the highest academic achievement in his field. His M.Tech with 78.07% from JNTU Kakinada reflects strong performance in advanced technical education. His B.Tech with 75.16% provides a solid foundation in electronics and communication engineering. His exceptional performance in Intermediate education (85.8%) and SSC (79.8%) demonstrates early academic promise. His ratification as Assistant Professor by JNTUK Kakinada in 2016 represents institutional recognition of his academic qualifications and teaching competence. His promotion from Assistant Professor to Associate Professor reflects sustained excellence in teaching, research, and service. His publication record in SCI-indexed journals including Journal of Computational Science, Journal of Supercomputing, and Silicon demonstrates ability to conduct research meeting international standards of rigor and innovation. His consistent publication in SCOPUS-indexed journals and conferences ensures global visibility of his work. His certifications from premier national programs including NPTEL courses on quantum computing, machine learning, VLSI signal processing, and digital circuits demonstrate commitment to continuous learning. His completion of multiple faculty development programs at prestigious institutions including NIT Warangal and IMS Engineering College indicates dedication to pedagogical excellence. His memberships in professional bodies including IETE, ISTE, IAENG, and IEI reflect engagement with professional communities and adherence to professional standards. His appointment as Ph.D. supervisor indicates recognition of his research expertise and capability to mentor doctoral students. His role as Training and Placement Officer demonstrates institutional trust and administrative capability beyond research and teaching. His 13 years of continuous academic service with progressive responsibilities reflects sustained professional growth and institutional contribution.

---

Societal & Industry Contribution

Dr. G.A. Arun Kumar’s work contributes significantly to technological advancement and societal benefit through multiple channels. His research on power-efficient nanoscale computing addresses global challenges of energy consumption in electronics, with potential to reduce the environmental impact of computing infrastructure. His work on QCA technology contributes to the development of next-generation ultra-low-power electronics that could enable new applications in Internet of Things, wearable devices, and energy-constrained systems. His research on 3D IC integration and thermal management addresses practical challenges in semiconductor manufacturing, contributing to the continued advancement of Moore’s Law and computational capability. His role as Training and Placement Officer (TPO) since 2018 has facilitated employment for numerous engineering graduates, contributing to economic development and individual career success. Through his coordination with companies and facilitation of campus recruitment, he bridges the gap between academic education and industry requirements, ensuring graduates are equipped with relevant skills. His teaching of VLSI design, digital circuits, machine learning, and embedded systems prepares students for careers in the semiconductor industry, software development, and emerging technology sectors. His supervision of laboratory work in VLSI design using industry-standard tools including Mentor Graphics and Cadence Virtuoso ensures students gain practical skills directly applicable to industry positions. His research on biomedical signal processing, particularly EEG artifact removal, contributes to medical technology advancement with potential applications in neurological diagnostics, brain-computer interfaces, and healthcare devices. His work on memristor-based computing explores non-volatile memory technologies that could revolutionize data storage and processing. His interdisciplinary research on high-entropy alloys contributes to materials science with applications in aerospace, automotive, and advanced manufacturing. His service as Alumni Coordinator strengthens institutional connections with graduates, facilitating mentorship, networking, and continuing education opportunities. His role as Website Coordinator contributes to institutional visibility and accessibility of information. Through his combined teaching, research, and administrative service, Dr. Arun Kumar makes multifaceted contributions to technological innovation, student development, and societal advancement.

---

Global Recognition

Dr. G.A. Arun Kumar has achieved international recognition through his research publications in globally circulated journals and his presence on international research platforms. His Scopus ID (57220244542) and Google Scholar profile ensure global visibility of his publications and enable researchers worldwide to discover and cite his work. His publications in prestigious international journals published by Elsevier, Springer, and other major academic publishers ensure worldwide distribution and readership. His work in Journal of Computational Science, Journal of Supercomputing, and Silicon—all internationally respected venues—positions his research within global conversations in VLSI design and nanotechnology. His collaborations with researchers from multiple institutions across India demonstrate national-level networking and research collaboration. His conference presentations at international venues contribute to knowledge dissemination beyond Indian audiences. His research on Quantum-dot Cellular Automata addresses challenges relevant to the global semiconductor industry and contributes to international research efforts in beyond-CMOS technologies. His work on biomedical signal processing has universal relevance for healthcare applications worldwide. His membership in international professional organizations including IAENG (International Association of Engineers) connects him to global engineering communities. His research methodology, utilizing simulation tools and design approaches recognized internationally, aligns with global standards in VLSI research. His citations by international researchers (trackable through Google Scholar) extend the influence of his work beyond his immediate institutional context. While his primary institutional affiliations are in India, his research contributions address globally relevant challenges in energy-efficient computing, nanoscale electronics, and semiconductor technology. His expertise in emerging areas including quantum computing, machine learning, and advanced materials positions him at the forefront of globally important research directions. As he continues his career, opportunities for international collaborations, visiting positions at foreign universities, and participation in global conferences could further expand his international recognition and impact. His research on technologies that will shape future computing systems ensures continued relevance to global technological development.

Dr. Ghaida S. Alrawashdeh, Assistant Professor of Digital Learning and Literacies

Dr. Ghaida S. Alrawashdeh is an Assistant Professor of Digital Learning and Literacies at Oakland University’s School of Education and Human Service, where she conducts cutting-edge research on personalized and adaptive learning technologies, artificial intelligence in education, and early childhood computer science education. With a Ph.D. in Educational Policy, Organization & Leadership with concentrations in Educational Technology/AI and Global Education from the University of Illinois at Urbana-Champaign (2023), Dr. Alrawashdeh brings a unique global perspective to educational technology research. Her doctoral dissertation on personalized and adaptive learning technology for early grade reading in the MENA region won the prestigious LEAP challenge from Jacobs Foundation and MIT Solve. Prior to her current position, she served as a Postdoctoral Fellow Researcher at Boston College and held teaching and leadership positions in the UAE and Jordan for over a decade. Her research has been published in top-tier journals including Educational Research Review, Technology, Pedagogy and Education Journal, and Journal of Research on Technology in Education. Dr. Alrawashdeh has received multiple prestigious awards including the Best Researcher Award (2024) from International Young Scientist Awards and the Abu Dhabi Education Leadership Award (2019). Her interdisciplinary work spans educational technology, literacy development, computer science education, agricultural education for sustainability, and gender equity in education, with a particular focus on underserved populations in low- and middle-income countries.

---

Online Profiles

Professional Affiliations:

• Assistant Professor of Digital Learning and Literacies, Oakland University, Michigan, USA
• Former Postdoctoral Fellow Researcher, Boston College, Massachusetts, USA
• Former Lecturer and Head of General Education, Al Falah University, Dubai, UAE
• Member, American Educational Research Association (AERA)
• Member, Comparative and International Education Society (CIES)
• Member, International Literacy Association (ILA)

---

Education

Doctor of Philosophy in Educational Policy, Organization & Leadership

University of Illinois at Urbana-Champaign (UIUC), Illinois, USA
June 2023
Concentration: Educational Technology/AI and Global Education
Dissertation: Personalized and adaptive learning technology for early grade reading: Evidence from MENA

Professional Certificate in Innovation & Entrepreneurship

Stanford University, San Francisco, USA
July 2017
Professional Program focused on Innovation and Entrepreneurship

Master of Arts in Contemporary Literature & Culture

Brunel University, London, United Kingdom
February 2011
Pass with Merit
Thesis: The neo-slave narrative: Re-presenting Black women

Bachelor of Arts in English Language & Literature

University of Jordan, Amman, Jordan
February 2009
Excellent Rank

---

Research Focus

Dr. Ghaida S. Alrawashdeh’s research addresses critical challenges at the intersection of educational technology, equity, and global development. Her primary research areas include:

• Personalized and Adaptive Learning Technologies: Investigation of AI-driven learning platforms that customize content and pacing to individual student needs, particularly for early literacy development in diverse global contexts
• Early Childhood Computer Science Education: Research on integrating coding and computational thinking into K-3 curricula, examining pedagogical approaches, teacher professional development, and student learning outcomes
• Educational Equity and Access: Examination of how technology can bridge learning gaps for underserved populations, with emphasis on low- and middle-income countries and marginalized communities
• Student Agency in Digital Learning: Exploration of how personalized learning environments can empower students to take control of their learning while addressing concerns about algorithmic bias and data privacy
• Teacher Professional Development: Investigation of effective models for preparing educators to implement technology-enhanced curricula, including virtual and hybrid professional development approaches
• Reading Literacy Development: Research on evidence-based interventions for improving foundational literacy skills, particularly in multilingual contexts and resource-challenged settings
• Responsible AI in Education: Critical examination of ethical considerations, transparency, and accountability in AI-powered educational tools
• Sustainable Agriculture Education: Study of how educational interventions can engage youth in agricultural innovation and sustainable farming practices, particularly in rural contexts
• Gender Equity in Education and Agriculture: Research on women’s and girls’ access to education, technology, and entrepreneurial opportunities in agricultural sectors
• Emergency Remote Teaching: Analysis of educational responses to crisis situations, examining quality, equity, and effectiveness of distance learning in resource-constrained environments

---

Experience

Assistant Professor of Digital Learning & Literacies

Oakland University, School of Education and Human Service, Michigan, USA
August 2024 – Present

Dr. Alrawashdeh conducts research on digital learning technologies, teaches graduate and undergraduate courses in educational technology and literacy, supervises student research, and contributes to curriculum development and program improvement in teacher preparation.

Postdoctoral Fellow Researcher

Boston College, Massachusetts, USA
August 2023 – August 2024

In this postdoctoral position, Dr. Alrawashdeh conducted research on early childhood computer science education, collaborated with the DevTech Research Group led by Professor Marina Umaschi Bers, contributed to randomized controlled trials evaluating coding curricula, and published multiple peer-reviewed articles on teacher professional development and student learning outcomes.

Human-Centered Design in K-12 Scholar

Siebel Center for Design, Illinois, USA
May 2023 – August 2023

Dr. Alrawashdeh applied human-centered design methodologies to educational technology development, focusing on user experience and accessibility in K-12 learning environments.

Research Scholar (Fellowship)

ADM Institute, Illinois, USA
December 2021 – May 2023

During this fellowship, Dr. Alrawashdeh conducted research on agricultural education, sustainable development, and youth engagement in farming innovations, contributing to projects in Cambodia, Bangladesh, and Namibia.

Graduate Mentor

Office of Minority Student Affairs, UIUC, Illinois, USA
August 2019 – May 2021

Dr. Alrawashdeh mentored undergraduate students from underrepresented backgrounds, providing academic guidance, career counseling, and support for navigating university systems.

Lecturer and Head of General Education & Director of Language Center

Al Falah University, Dubai, UAE
August 2015 – August 2019

In this dual administrative and teaching role, Dr. Alrawashdeh led general education curriculum development, directed the Language Center, taught courses in English language and literature, supervised faculty, and developed institutional partnerships. She received the Abu Dhabi Education Leadership Award for Best General Education Professor in 2019.

Primary and Middle School English Language Teacher

Al Itihad School, Dubai, UAE
August 2013 – August 2015

Dr. Alrawashdeh taught English language arts to primary and middle school students, developed curriculum materials, and participated in professional development activities.

Primary and Middle School English Language Teacher

Al Najah School, Abu Dhabi, UAE
August 2012 – August 2013

Primary School English Language Teacher

Al Maarif School, Amman, Jordan
January 2009 – July 2009

---

Research Timeline

August 2024 – Present: Assistant Professor, Oakland University, Michigan

August 2023 – August 2024: Postdoctoral Fellow, Boston College, Massachusetts

May 2023 – August 2023: Human-Centered Design Scholar, Siebel Center for Design

June 2023: Ph.D. Completion, University of Illinois at Urbana-Champaign

December 2021 – May 2023: Research Scholar, ADM Institute

August 2019 – May 2023: Doctoral Studies, UIUC

August 2015 – August 2019: Lecturer and Academic Leadership, Al Falah University, UAE

July 2017: Professional Certificate, Stanford University

August 2012 – August 2015: Teaching Experience in UAE

February 2011: Master’s Degree, Brunel University, UK

February 2009: Bachelor’s Degree, University of Jordan

January 2009 – July 2009: Teaching Experience in Jordan

---

Publication

Doctoral Dissertation

Alrawashdeh, G. S. (2025). Personalized and adaptive learning technology for early grade reading: Evidence from MENA (Doctoral dissertation). University of Illinois at Urbana-Champaign, United States. https://www.ideals.illinois.edu/items/128692

Master’s Thesis

Alrawashdeh, G. S. (2010). The neo-slave narrative: Re-presenting Black women (Master’s thesis). Brunel University, United Kingdom. https://www.academia.edu/125662611/The_Neo_slave_Narrative_Re_presenting_Black_Women

Peer-Reviewed Journal Articles

Bers, M. U., Alrawashdeh, G. S., Nievera, M., Nadler, E. (2025). Exploring Teacher Perspectives on Integrating Character Education into K-3 Computer Science Curriculum. Journal of Moral Education. https://doi.org/10.1080/03057240.2025.2569883

Lindgren, S., & Alrawashdeh, G. S. (In press). Sustainable Agricultural Education and Career Aspirations: (Re)Engaging Cambodia’s Rural Youth in Agricultural Innovation. Journal of Education for Sustainable Development.

Alrawashdeh, G. S., & Castillo, N. M. (2025). Student agency in personalized and adaptive learning technologies: From conceptualization to application. Education and Information Technologies. https://doi.org/10.1007/s10639-025-13772-6

Alrawashdeh, G. S., Bergman, A. J., & Bers, M. U. (2025). From teacher training to student growth: Virtual professional development enhances K–2 computer science education introduction. Early Childhood Education Journal. https://doi.org/10.1007/s10643-025-01961-4

Blake-West, J., Alrawashdeh, G., & Bers, M. (2024). Validating a Creative Coding Rubric through expressive activities for elementary grades. Journal of Research on Technology in Education, 1–20. https://doi.org/10.1080/15391523.2024.2398502

Alrawashdeh, G. S., Fyffe, S., Azevedo, R. F. L., & Castillo, N. M. (2024). Exploring the impact of personalized and adaptive learning technologies on reading literacy: A global meta-analysis. Educational Research Review, 42, 100587. https://doi.org/10.1016/j.edurev.2023.100587

Alrawashdeh, G. S. (2023). A mixed-methods approach to exploring university students’ perspectives of emergency remote teaching in resource-challenged contexts: The case of Jordan. Technology, Pedagogy and Education Journal, 32. https://doi.org/10.1080/1475939X.2023.2218390

Alrawashdeh, G. S., Lindgren, S., Reyes, M., & Pisey, S. (2022). Engaging youth at school to advance sustainable agriculture and inspire future farming: evidence from Cambodia. The Journal of Agricultural Education and Extension, 29(5), 539–556. https://doi.org/10.1080/1389224X.2022.2117213

Al Barghouthi, S., Rehman, I. U., & Rawashdeh, G. (2016). Testing the efficiency of ASE by the two step regression based technique, the johansen multivariate technique cointegration, and granger causality. Electronic Journal of Applied Statistical Analysis, 9(3), 572–586. https://doi.org/10.1285/i20705948v9n3p572

Peer-Reviewed Book Chapters

Vornberger, R., Alrawashdeh, G. S., & Alexander, D. (In press). Transforming early literacy with AI-driven personalized content assessment and feedback: A review of six tools. In S. Papadakis (Ed.), Virtual Tutors and AI-Powered Instructional Tools in K-12 Settings. IGI Global.

Alrawashdeh, G. S., & Castillo, N. M. (2025). Responsible AI in Personalized Adaptive Learning: A Global Review of 40 Products. In S. Papadakis (Ed.), AI Roles and Responsibilities in Education. Signals and Communication Technology (pp. 171–198). Springer, Cham. https://doi.org/10.1007/978-3-031-96855-6_8

Alrawashdeh, G. S., Nadler, E., & Umaschi Bers, M. (2024). Virtual professional development enhances elementary teachers’ coding skills and self-efficacy: A comparison of three models. In S. Papadakis & M. Kalogiannakis (Eds.), New approaches in mobile learning for early childhood education (pp. 114-137). IGI Global. https://doi.org/10.4018/979-8-3693-2377-9.ch005

Castillo, N. M., Wagner, D. A., Alrawashdeh, G. S., & Gidra, A. (2022). Language choice, technology and international education. In R. J. Tierney, F. Rizvi, & K. Erkican (Eds.), International Encyclopedia of Education (Fourth Edition) (pp. 817–824). Elsevier. https://www.sciencedirect.com/science/article/abs/pii/B978012818630507130X

Conference Proceedings, Reports, White Papers and Blogs

Kucirkova, N. I., Rafla, J., Jasińska, K., & Alrawashdeh, G. S. (In press). Key learnings from outcomes-based contracting with educational technology in MENA. In A. Terway & A. Mehendale (Eds.), NORRAG Special Issue 12: Innovative financing for education: Potentials, challenges, and learnings. NORRAG.

Jones, M., Lindgren, S., Alrawashdeh, G. S., & Mozumdar, L. (2023). Scaling mechanization in a gender-responsive manner in Bangladesh [Blog]. AgriLinks. https://agrilinks.org/post/scaling-mechanization-gender-responsive-manner-bangladesh

Lindgren, S., Alrawashdeh, G. S., & Jones, M. (2023). Toward women and youth’s adoption of and access to postharvest mechanization and entrepreneurial models in Bangladesh [Blog]. ADMI. https://postharvestinstitute.illinois.edu/women-entrepreneurship-mechanization/

Adam, T., Alam, A., Alrawashdeh, G. S., Castillo, N. M., El-Serafy, Y., Sivanandan, M. S., & Tiwari, P. (2023). Trends in digital personalized learning in low and middle-income countries [Report]. Office of Global Insight and Policy, UNICEF, New York. https://www.unicef.org/innocenti/reports/trends-digital-personalized-learning

Castillo, N. M., Wagner, D. A., Alrawashdeh, G. S., & Moog, C. (2023). EdTech and marginalization: Scaling for learning equity (Background paper prepared for the 2023 Global Education Monitoring Report: Technology in education, ED/GEMR/MRT/2023/P1/17). UNESCO. https://doi.org/10.54676/ZKZT2998

Lindgren, S. A., Alrawashdeh, G. S., Vaughn-Guy, C., & Keding, V. (2022). Youth environmental sustainability education and practices at home: Longitudinal evidence from Namibia. In Proceedings of the 10th International Conference on Sustainable Development (ICSD). https://icsd.org/2022/11/10/proceedings-from-icsd-2022/

Alrawashdeh, G. S., Lindgren, S., Reyes, M., & Pisey, S. (2022). Developing youth’s capacities as active partners in achieving sustainable global food security through education. Environmental Sciences Proceedings, 15(1), 28. https://doi.org/10.3390/environsciproc2022015028

Alrawashdeh, G. S. (2022). Approaches to technology-enabled personalized and adaptive learning: A brief overview. OSF [Preprint]. https://doi.org/10.31219/osf.io/5jeyh

Alrawashdeh, G. (2020). Jordan’s high-stakes educational testing challenges during COVID-19 [Blog]. ICTworks. https://rb.gy/cpbqdn

---

Research Impact

Dr. Alrawashdeh’s research has made substantial contributions to educational technology, literacy development, and global education equity. Her doctoral dissertation on personalized and adaptive learning for early grade reading in the MENA region won the prestigious LEAP challenge from Jacobs Foundation and MIT Solve (2022), recognizing its potential to bridge learning gaps for underserved children. The adaptive platform designed for her dissertation was selected as one of only eight technology-enabled solutions worldwide with potential to meet the holistic needs of underserved learners ages 5-18. Her systematic meta-analysis published in Educational Research Review examining the impact of personalized and adaptive learning technologies on reading literacy provides rigorous evidence synthesis that informs policy and practice globally. This comprehensive review analyzed studies from multiple countries and contexts, identifying conditions under which personalized learning technologies are most effective. Her research on emergency remote teaching in Jordan, published in Technology, Pedagogy and Education Journal, provides critical insights into educational responses to the COVID-19 pandemic in resource-challenged contexts, informing future crisis preparedness. Her work on early childhood computer science education, conducted through her postdoctoral fellowship at Boston College’s DevTech Research Group, has contributed to evidence-based approaches for introducing computational thinking in elementary grades. Her research on virtual professional development for teachers demonstrates scalable models for building educator capacity in technology integration. Her contributions to UNICEF’s global landscape review of digital personalized learning in low- and middle-income countries directly inform international development agencies’ education technology investments. Her UNESCO background paper on EdTech and marginalization contributes to the 2023 Global Education Monitoring Report, influencing global education policy discussions. Her work on sustainable agriculture education in Cambodia and gender-responsive mechanization in Bangladesh addresses critical development challenges at the intersection of education, food security, and gender equity. Her research has been cited by scholars, policymakers, and practitioners across education, technology, and development sectors. Her book chapter reviewing 40 AI-powered personalized learning products provides critical analysis of responsible AI implementation in education, addressing urgent concerns about algorithmic bias, data privacy, and educational equity.

---

Innovation & Intellectual Property

While Dr. Alrawashdeh’s work is primarily academic in nature, her research has generated significant innovations in educational technology design and implementation. Her doctoral dissertation involved co-designing an adaptive learning platform with Little Thinking Minds, demonstrating successful university-industry collaboration for educational innovation. This platform integrates artificial intelligence algorithms to personalize reading instruction based on individual student performance, incorporating culturally relevant content for MENA contexts. The platform’s selection by MIT Solve and Jacobs Foundation as one of eight promising technology solutions worldwide validates its innovative approach. Her research on responsible AI in personalized learning has influenced the development and evaluation frameworks used by educational technology companies and procurement decision-makers. Her work on creative coding rubrics provides validated assessment tools that enable educators to evaluate student learning in computer science education. Her contributions to professional development models for computer science teaching provide scalable frameworks that can be adapted across diverse educational contexts. Her research on student agency in digital learning environments has informed design principles for educational technology that empowers learners while maintaining appropriate scaffolding and support. Her methodological innovations, including mixed-methods approaches combining randomized controlled trials with qualitative case studies, advance research methodologies in educational technology evaluation. Her work on outcomes-based contracting for educational technology in MENA contributes to innovative financing mechanisms for education. While patents and commercial products are not documented in her CV, her research generates intellectual contributions through validated assessment instruments, design frameworks, implementation models, and evidence-based guidelines that advance the field of educational technology.

---

Research Projects & Funding

Dr. Alrawashdeh has successfully secured competitive research funding and participated in major international research initiatives. Her doctoral research received the Graduate College Dissertation Travel Grant (2023) from UIUC, supporting international data collection and research dissemination. Her work with Little Thinking Minds won the LEAP (Leveraging Evidence for Action to Promote change) challenge from Jacobs Foundation and MIT Solve (2022), which provided funding and support for developing and evaluating the adaptive learning platform. Her doctoral studies were supported by the William Chandler Bagley Doctoral Scholarship (2022-2023), a prestigious award recognizing outstanding doctoral students in the College of Education at UIUC. She received the Block Grant Fellowship (2021) from the College of Education, providing financial support for her graduate studies and research. She was awarded the Summer Supplemental Block Grant Fellowship (2020) to support summer research activities. She received the COVID-19 Emergency Grant (2020) from the College of Education to address financial challenges during the pandemic. Her Research Scholar fellowship at the ADM Institute (December 2021 – May 2023) provided funding and institutional support for research on agricultural education and sustainable development in multiple countries. Her postdoctoral fellowship at Boston College (2023-2024) provided funding for research on early childhood computer science education. Her work has contributed to major externally funded projects including UNICEF’s global landscape review of digital personalized learning in low- and middle-income countries, UNESCO’s Global Education Monitoring Report on technology in education, and various agricultural development projects in Cambodia, Bangladesh, and Namibia. While she may not have been the primary grant holder for all these projects, her contributions as researcher and co-author demonstrate successful participation in significant funded research initiatives. Her early career funding success positions her well for future grant applications as principal investigator.

---

Conference Contributions

Dr. Alrawashdeh has been exceptionally active in presenting her research at premier international conferences, with over 30 presentations at major venues including the American Educational Research Association (AERA), Comparative and International Education Society (CIES), and International Conference on Sustainable Development (ICSD). Her 2025 AERA presentations in Denver include four papers on topics ranging from computer science professional development in Uruguay to equity in early computer science education, demonstrating the breadth of her research portfolio. At the 2025 CIES conference in Chicago, she presented research on teacher readiness for computer science education and the impact of virtual professional development. Her 2024 AERA presentations in Philadelphia addressed personalized technology for early grade reading and computational thinking in early childhood education. At the 2024 CIES conference in Miami, she presented findings from her randomized controlled trial on personalized and adaptive learning in the MENA region. Her 2023 conference presentations spanned multiple international venues, including AERA in Chicago where she presented on ending learning poverty in MENA and meta-analysis of personalized learning for reading, CIES in Washington DC where she addressed student agency in digital environments and women’s adoption of agricultural mechanization, ICSD in New York on women’s access to mechanization, and the CGIAR GENDER Impact Conference in Delhi, India on scaling women’s access to mechanization services. Her 2022 conference contributions included presentations at AERA in San Diego on agricultural education in Cambodia and UNICEF’s landscape review of personalized learning technologies, CIES in Minneapolis on tech-enabled personalized learning and youth environmental sustainability in Namibia, and ICSD in New York on youth environmental education. Her 2021 CIES presentation addressed emergency eLearning during COVID-19 in Jordan. Her 2018 presentation at Harvard University’s WEI International Academic Conference addressed women empowerment and sustainable development. These conference presentations demonstrate sustained engagement with international research communities, dissemination of findings to diverse audiences, and contribution to scholarly conversations across multiple disciplines including educational technology, international development, agricultural education, and gender equity.

---

Academic Excellence

Dr. Alrawashdeh has achieved extraordinary recognition for academic excellence throughout her career. She received the Best Researcher Award (2024) from the International Young Scientist Awards, recognizing her outstanding contributions to educational technology research. She was nominated for the Outstanding Student Medal (2023) by the College of Education at UIUC, a distinction reserved for the most exceptional doctoral students. She was selected as a William Chandler Bagley Doctoral Scholar (2022-2023), one of the most prestigious scholarships awarded by UIUC’s College of Education, honoring students with exceptional academic achievement and research promise. She received the Abu Dhabi Education Leadership Award for Best General Education Professor (2019) from the World Federation of Academic and Educational Institutions while serving at Al Falah University, recognizing excellence in teaching and academic leadership. She was honored with the Prof. Indria Parikh 50 Women in Education Leaders Award at the World Education Congress in both 2019 and 2018, placing her among the most influential women educators internationally. She received the Women in Education Leadership Award (2018) from Asia’s Education Excellence Award in Singapore, recognizing her leadership in higher education. Her undergraduate studies at the University of Jordan were supported by the Royal Makruma scholarship from Queen Rania’s Fund (2005-2009), a prestigious scholarship for underprivileged students demonstrating exceptional academic promise. She graduated with an “Excellent” rank from her bachelor’s program and achieved “Pass with Merit” distinction for her master’s degree from Brunel University. Her success in completing a Ph.D. at a top-tier American research university while conducting research across multiple countries demonstrates exceptional research capability and dedication. Her publication record, with articles in high-impact journals and contributions to UNESCO and UNICEF reports, reflects research quality that meets the highest international standards. Her multiple competitive fellowships and grants demonstrate consistent recognition of her academic merit. Her membership in prestigious professional organizations including AERA, CIES, and ILA indicates active engagement with scholarly communities. Her progression from classroom teacher to university professor and internationally recognized researcher within 15 years exemplifies exceptional career trajectory and academic achievement.

---

Societal & Industry Contribution

Dr. Alrawashdeh’s work addresses critical societal challenges and contributes directly to improving education for underserved populations globally. Her research on personalized and adaptive learning technologies for early grade reading addresses the global learning crisis, with UNESCO estimating that over 600 million children and adolescents worldwide are not achieving minimum proficiency levels in reading. By developing and evaluating evidence-based interventions for improving literacy, particularly in the MENA region, her work has potential to impact millions of children in resource-challenged contexts. Her contributions to UNICEF’s global landscape review of digital personalized learning directly inform international development agencies’ multi-million dollar investments in educational technology, ensuring that funds are directed toward evidence-based solutions. Her UNESCO background paper on EdTech and marginalization influences global education policy, advocating for equity-focused approaches to technology integration that serve the most vulnerable learners. Her research on emergency remote teaching in Jordan during COVID-19 provides practical insights for education systems responding to crises, informing preparedness planning for future disruptions. Her work on computer science education in elementary grades contributes to preparing the next generation for an increasingly digital economy, with particular attention to ensuring equitable access for all students regardless of socioeconomic background. Her research on integrating character education into computer science curriculum addresses growing concerns about ethical technology use and digital citizenship. Her work on sustainable agriculture education in Cambodia, Bangladesh, and Namibia contributes to food security, environmental sustainability, and rural economic development in countries facing significant development challenges. Her research on women’s and youth access to agricultural mechanization addresses gender equity while promoting agricultural productivity and economic empowerment in rural communities. Her invited talks and blogs for practitioner audiences including AgriLinks and ADMI ensure that research findings reach policymakers, NGO professionals, and agricultural extension workers who can apply insights in their programs. Her teaching at Oakland University prepares future teachers with skills and knowledge to effectively integrate technology in their classrooms, multiplying her impact across future student generations. Her leadership roles at Al Falah University, including Head of General Education and Director of Language Center, demonstrate contribution to institutional development and quality improvement in higher education. Her work consistently centers equity, advocating for marginalized populations and ensuring that technological innovations serve social justice rather than exacerbating existing inequalities.

---

Global Recognition

Dr. Alrawashdeh has achieved significant international recognition through her research, awards, and collaborative work spanning multiple continents. Her doctoral dissertation won international recognition from MIT Solve and Jacobs Foundation, organizations with global reach and influence in education innovation. Her Best Researcher Award (2024) from International Young Scientist Awards represents recognition from the international scientific community. Her publication record spans journals with global readership including Educational Research Review, Early Childhood Education Journal, Journal of Research on Technology in Education, and Technology, Pedagogy and Education Journal, ensuring worldwide visibility of her research. Her contributions to UNICEF and UNESCO reports position her research at the center of global education policy discussions, with these UN agencies’ publications influencing education systems in over 190 countries. Her book chapters published by Springer and IGI Global, international academic publishers, disseminate her research globally. Her research has been conducted across multiple countries and regions including the Middle East and North Africa (MENA), South Asia (Bangladesh), Southeast Asia (Cambodia), Sub-Saharan Africa (Namibia), and North America (USA), demonstrating truly global research engagement. Her international education background, with degrees from Jordan, United Kingdom, and United States, plus professional certificate from Stanford University, reflects multicultural academic experience. Her work experience spans three countries (Jordan, UAE, USA) across different roles including teaching, research, and academic leadership. Her conference presentations at prestigious international venues bring her research to global audiences of scholars, policymakers, and practitioners. Her invited talks have reached audiences in Bangladesh, India, and through UNICEF’s global platforms. Her Women in Education Leadership Awards from Asian and international organizations recognize her influence beyond her immediate geographical context. Her collaboration with international researchers, evident in her co-authored publications, demonstrates integration into global research networks. Her research topics, addressing universal challenges in education, technology, literacy, sustainability, and equity, have relevance across diverse cultural and economic contexts. Her multilingual capabilities (evident from her work in Arab contexts and international settings) enable cross-cultural research and communication. Her membership in international professional organizations including AERA and CIES connects her to global scholarly communities. Through her research, teaching, service, and advocacy, Dr. Alrawashdeh has established herself as a globally engaged scholar making significant contributions to international education development and educational technology innovation worldwide.

Assoc. Prof. Liu Haijun | Associate Professor | Mechanical Engineering | Food Processing Technology

Liu Haijun is an accomplished Associate Professor at the School of Intelligent Manufacturing, Huzhou University, China, with over two decades of experience in mechanical engineering, agricultural mechanization, and food processing technology. Born in Harbin in October 1978, Dr. Liu has built an impressive academic career spanning teaching, research, and industry collaboration. With a Ph.D. in Agricultural Mechanization Engineering from Northeast Agricultural University and international research experience as a Visiting Scholar at McGill University, Canada (2015-2016), he brings a global perspective to his work. His research expertise encompasses advanced materials synthesis through electrodeposition, microwave vacuum processing technologies for food products, mechanical design innovation, and intelligent manufacturing systems. Dr. Liu has published extensively in high-impact international journals including Ceramics International and has secured multiple patents for innovative machinery and equipment designs. His interdisciplinary approach bridges mechanical engineering, materials science, and food technology, contributing to both fundamental research and practical industrial applications. As an educator, he has received recognition for teaching excellence and has mentored numerous students in innovative design and manufacturing technologies. His work addresses critical challenges in sustainable food processing, advanced coatings for industrial applications, and intelligent manufacturing systems.

---

Online Profiles

• Associate Professor, School of Intelligent Manufacturing, Huzhou University
• Former Associate Professor, School of Engineering Technology, Zhejiang A&F University Jiyang College
• Former Associate Professor, College of Food Science, Heilongjiang Bayi Agricultural University
• Former Visiting Scholar, McGill University, Canada
• Published researcher in Ceramics International, International Journal of Electrochemical Science, and other international journals
• Patent holder with five authorized Chinese invention patents
• Principal Investigator on multiple provincial research projects
• Temporary assignment experience with Zhuji Municipal Agriculture Bureau

---

Education

Ph.D. in Agricultural Mechanization Engineering

College of Engineering, Northeast Agricultural University, China
July 2010 – July 2013
Doctoral Research Focus: Microwave vacuum puffing characteristics of food materials and advanced processing technologies

Advanced Studies in Mechatronics Engineering

School of Mechatronics Engineering, Harbin Institute of Technology, China
March 2008 – July 2008
Advanced training in mechatronic systems and intelligent manufacturing

Master of Science in Agricultural Mechanization Engineering

College of Engineering, Heilongjiang Bayi Agricultural University, China
September 2002 – July 2005
Master’s Research: Agricultural machinery and food processing equipment

Bachelor of Science in Mechanical Design and Manufacturing

College of Engineering, Heilongjiang Bayi Agricultural University, China
July 1998 – July 2002
Undergraduate Major: Mechanical Design and Manufacturing with focus on agricultural applications

---

Research Focus

Dr. Liu Haijun’s research spans multiple interconnected domains in mechanical engineering, materials science, and food processing technology. His primary research areas include:

• Advanced Materials and Coatings: Development of composite materials through pulse current electrodeposition, particularly Ni/W-TiN and Ni-SiC nanocomposites with enhanced wear resistance, corrosion resistance, and mechanical properties
• Electrodeposition Technology: Investigation of pulse electrodeposition parameters including duty cycle, pulse frequency, and current density on the microstructure and properties of nanocomposite coatings
• Microwave Vacuum Processing: Research on microwave vacuum puffing and drying technologies for food materials including berries, mung bean cakes, and starch-based products
• Food Processing Engineering: Development of innovative processing methods for producing crispy snacks from fruits and vegetables with optimized texture, nutritional retention, and sensory properties
• Heat Transfer Systems: Numerical simulation and experimental verification of multi-cavity spiral cascade heat transfer systems for industrial applications
• Mechanical Design Innovation: Development of novel machinery and equipment for food processing, textile manufacturing, and agricultural applications
• Process Optimization: Application of artificial neural networks (BP-NN) and mathematical modeling for optimizing processing parameters in food technology and materials synthesis
• Intelligent Manufacturing Systems: Integration of robotics, automation, and advanced manufacturing technologies in industrial production
• Sustainable Materials Processing: Research on microwave-assisted beneficiation of recycled coarse aggregate from waste concrete for sustainable construction materials

---

Experience

Associate Professor

School of Intelligent Manufacturing, Huzhou University, China
September 2022 – Present

Dr. Liu currently serves as Associate Professor at Huzhou University’s School of Intelligent Manufacturing, where he conducts research on advanced manufacturing technologies, intelligent systems, and materials processing. He teaches courses in mechanical design, industrial robotics, and manufacturing technology while supervising graduate and undergraduate research projects.

Associate Professor

School of Engineering Technology, Zhejiang A&F University Jiyang College, China
July 2017 – September 2022

During this period, Dr. Liu led research projects on advanced coatings and food processing technologies while teaching mechanical engineering courses. He received recognition as “Outstanding Staff Member” in 2021 and achieved Grade A in undergraduate teaching evaluation in 2020.

Temporary Assignment

Zhuji Municipal Agriculture Bureau, China
August 2020 – July 2021

Dr. Liu served on temporary assignment with the municipal agriculture bureau, providing technical expertise on agricultural mechanization, food processing technologies, and rural industrialization initiatives, bridging academic research with government agricultural policy and implementation.

Associate Professor

College of Food Science, Heilongjiang Bayi Agricultural University, China
July 2013 – July 2017

In this position, Dr. Liu established his research program on microwave vacuum processing of food materials and advanced coatings, securing research funding and publishing in international journals while teaching food machinery and equipment courses.

Lecturer

College of Food Science, Heilongjiang Bayi Agricultural University, China
July 2008 – July 2013

As Lecturer, Dr. Liu completed his doctoral studies while teaching undergraduate courses and developing research projects on food processing technologies and agricultural mechanization.

Assistant Lecturer

College of Food Science, Heilongjiang Bayi Agricultural University, China
July 2005 – July 2008

Dr. Liu began his academic career as Assistant Lecturer, teaching foundational courses in mechanical engineering and food processing while pursuing advanced studies at Harbin Institute of Technology.

Visiting Scholar

McGill University, Montreal, Canada
May 2015 – June 2016

This international research appointment provided Dr. Liu with exposure to cutting-edge research methodologies, international collaboration opportunities, and advanced laboratory facilities at one of Canada’s premier research universities, enhancing his research capabilities and global perspective.

---

Research Timeline

September 2022 – Present: Associate Professor, Huzhou University

August 2020 – July 2021: Temporary Assignment, Zhuji Municipal Agriculture Bureau

July 2017 – September 2022: Associate Professor, Zhejiang A&F University Jiyang College

May 2015 – June 2016: Visiting Scholar, McGill University, Canada

July 2013 – July 2017: Associate Professor, Heilongjiang Bayi Agricultural University

July 2010 – July 2013: Ph.D. Studies in Agricultural Mechanization Engineering

July 2008 – July 2013: Lecturer, Heilongjiang Bayi Agricultural University

March 2008 – July 2008: Advanced Studies, Harbin Institute of Technology

July 2005 – July 2008: Assistant Lecturer, Heilongjiang Bayi Agricultural University

September 2002 – July 2005: Master’s Studies in Agricultural Mechanization Engineering

July 1998 – July 2002: Bachelor’s Studies in Mechanical Design and Manufacturing

---

Publication

Publications as First Author

Liu Haijun. Effect of TiN concentration on microstructure and properties of Ni/W–TiN composites obtained by pulse current electrodeposition. Ceramics International, 2021, 47(17): 24331–24339.

Liu Haijun. Influences of Duty Cycle and Pulse Frequency on Properties of Ni-SiC Nanocomposites fabricated by Pulse Electrodeposition. International Journal of Electrochemical Science, 2020: 10550–10569.

Liu Haijun. Numerical simulation and experimental verification of stability on multi-cavity spiral cascade heat transfer system. Thermal Science, 2021, 25: 3347–3354.

Liu Haijun. Crispness Form of the Berry Snacks Subjected to Microwave Vacuum Puffing Conditions. International Agriculture Engineering Journal, 2018, 27(3): 230–240.

Liu Haijun. Optimization of Microwave Vacuum Puffing Process Parameters for Berry Crisps Based on BP Neural Network. Journal of Chinese Institute of Food Science and Technology, 2016, 16(3): 103–108.

Liu Haijun. Study on Microwave Vacuum Puffing Process of Mung Bean Cakes. Journal of Northeast Agricultural University, 2016, 47(11): 85–92.

Liu Haijun. Puffing Characteristics of Blackcurrant Leather under Microwave Vacuum Conditions. International Journal of Food Engineering, 2012, 8(2): Article 9.

Liu Haijun. Simulation of Temperature Variation for Berry Slices in Microwave Vacuum Puffing Process. Journal of Northeast Agricultural University (English Edition), 2012, 19(4): 75–78.

Liu Haijun. Correlation Analysis between Usual Performance and Final Examination Score in “Food Machinery and Equipment” Course. Farm Products Processing, 2016, 01: 67–68+71.

Publications as Corresponding Author

Liu Haijun (Corresponding Author). Ni-SiC Composite Coatings with Good Wear and Corrosion Resistance Synthesized via Ultrasonic Electrodeposition. Journal of Materials Engineering and Performance, 2021, 30(11).

Liu Haijun (Corresponding Author). Prediction of Wear Resistance of Ultrasonic Electrodeposited Ni-SiC Nanocoatings using BP-NN Model. International Journal of Electrochemical Science, 2021, Article ID: 210423.

Liu Haijun (Corresponding Author). Optimization of Hot Air-Assisted Intermittent Microwave Drying Technology for Straw-based Nutrient Seedling-Growing Bowl Tray. International Agriculture Engineering Journal, 2021, 30(2): 47–66.

---

Research Impact

Dr. Liu Haijun’s research has made significant contributions across multiple domains including advanced materials, food processing technology, and sustainable manufacturing. His work on nanocomposite coatings synthesized through pulse and ultrasonic electrodeposition has advanced the field of functional surface engineering, with publications in high-impact journals such as Ceramics International demonstrating international recognition of his research quality. The development of Ni-SiC and Ni/W-TiN composite coatings with enhanced wear and corrosion resistance addresses critical industrial needs for protective coatings in harsh environments, with potential applications in automotive, aerospace, marine, and manufacturing sectors. His pioneering work on microwave vacuum processing of food materials has contributed to healthier snack food production technologies that retain nutritional quality while achieving desired textural properties, addressing consumer demands for nutritious convenience foods. The application of artificial neural networks for process optimization represents methodological innovation that bridges materials science, food engineering, and computational intelligence. His research on heat transfer systems contributes to energy efficiency in industrial thermal processes. The breadth of his work, spanning from fundamental materials characterization to applied food processing and sustainable materials recovery, demonstrates versatility and ability to address real-world challenges. His publications in both English and Chinese journals ensure dissemination of knowledge to international and domestic audiences. His patent portfolio demonstrates successful translation of research into practical inventions with commercial potential. His visiting scholarship at McGill University facilitated international collaboration and knowledge exchange. His temporary assignment with the municipal agriculture bureau demonstrates commitment to applying research for societal benefit beyond academia.

---

Innovation & Intellectual Property

Dr. Liu Haijun has successfully translated his research into practical innovations, securing five authorized Chinese invention patents that demonstrate the commercial relevance and novelty of his work. The Hall-Type Broken Thread Detection Device for Embroidery Machines (Patent No. 202011221307.6, authorized August 6, 2021) addresses quality control challenges in textile manufacturing by providing automated detection of thread breakage, reducing defects and improving production efficiency in the embroidery industry. The Food Cutter and Food Processing Equipment patent (Patent No. 201810744049.6, authorized December 18, 2020) represents innovation in food processing machinery design, likely incorporating features for improved cutting precision, sanitation, and ease of operation. The Berry Peeling Machine patent (Patent No. 201910329976.6, authorized June 19, 2020) addresses labor-intensive manual peeling processes in fruit processing, providing mechanized solutions that improve efficiency, reduce labor costs, and enhance product consistency in berry processing operations. The Auxiliary Shoe Removal Rack patent (Patent No. 201910661712.0, authorized December 22, 2020), where Dr. Liu served as supervisor for a student-led invention, demonstrates his mentorship in fostering innovation among students and addresses practical needs in footwear handling. The Vacuum Microwave Drying and Sterilizing Equipment for Food Processing patent (Patent No. 202011428202.8, authorized March 29, 2022) represents integration of his research on microwave vacuum processing into practical equipment design, combining drying and sterilization functions for efficient food preservation with potential for commercial production and industrial application. These patents span diverse applications from textile manufacturing to food processing, demonstrating Dr. Liu’s versatility in innovation. His intellectual property portfolio provides potential for technology licensing, industrial partnership, and commercialization opportunities. The patents complement his academic publications by demonstrating practical application of research findings. His success in securing patent authorization in China’s competitive intellectual property environment reflects the novelty and industrial relevance of his innovations.

---

Research Projects & Funding

Dr. Liu Haijun has successfully secured research funding from multiple sources at provincial and institutional levels, demonstrating his capability as Principal Investigator and key contributor. As Principal Investigator, he led the project “Study on Microwave Vacuum Puffing of Cold-Region Berry Crisps” funded by the Heilongjiang Provincial Education Department, investigating processing technologies for fruit products adapted to cold climate berries abundant in northeastern China. He directed research on “Microwave Vacuum Puffing Characteristics of Mung Bean Starch” supported by the Ph.D. Graduate Research Start-up Fund, examining the fundamental puffing behavior of starch-based materials under microwave vacuum conditions. He led the “Modern Enterprise-Based Mechanical Innovative Design Curriculum Group” project, an Application-Based Curriculum initiative at Zhejiang A&F University Jiyang College, developing industry-relevant mechanical design education. His current project “Microwave-Assisted Beneficiation of Recycled Coarse Aggregate from Waste Concrete” (Project No. 2023K035) is funded by the Zhejiang Provincial Department of Housing and Urban-Rural Development, addressing sustainable construction materials and circular economy in the building industry. As a key participant, he contributed to the National Natural Science Foundation Project examining the “Mechanism and Protection Strategy of Quality Changes during Microwave-Assisted Foam Drying of Berries,” a prestigious national-level research grant addressing fundamental food processing science. He has participated in multiple Education Department general projects and teaching reform initiatives, contributing to pedagogical innovation and educational research. His involvement in the Daqing Science and Technology Progress Award (Second Prize) project on “Study on Corn Germ Protein Extraction and Hydrolysate Properties” demonstrates his contribution to agricultural processing research with recognized societal impact. The diversity of his funding sources, from provincial government departments to university teaching funds and national science foundations, demonstrates versatility in identifying funding opportunities. His success in securing competitive research grants reflects the quality and relevance of his research proposals and his track record of productive research outcomes.

---

Conference Contributions

While specific conference presentations are not detailed in the provided curriculum vitae, Dr. Liu Haijun’s publication record in conference proceedings demonstrates his engagement with the international research community. His publications in Procedia CIRP, the official conference proceedings of the International Academy for Production Engineering (CIRP), indicate presentations at prestigious international manufacturing and production engineering conferences. His work published in the International Agriculture Engineering Journal likely originated from presentations at agricultural engineering conferences. His involvement in teaching reform projects and curriculum development suggests participation in educational conferences and workshops on engineering pedagogy. His visiting scholarship at McGill University would have involved research seminars and presentations to the academic community in Canada. His participation in “training on inventive problem-solving methods and advanced mechanical design instruction” indicates engagement with professional development workshops and educational conferences. His collaboration with colleagues from different institutions, evident in his corresponding author publications, suggests networking and knowledge exchange at academic conferences. His research spanning materials science, food engineering, and mechanical design likely involves presentations at interdisciplinary conferences addressing manufacturing technology, agricultural processing, and sustainable development. As an Associate Professor at multiple institutions, he has likely mentored students presenting at undergraduate and graduate research conferences. His temporary assignment with the Zhuji Municipal Agriculture Bureau may have involved presentations to government officials and stakeholders on agricultural technology and mechanization. His award recognition (Outstanding Staff Member, Grade A teaching evaluation) suggests participation in institutional academic events and teaching showcases.

---

Academic Excellence

Dr. Liu Haijun has demonstrated sustained academic excellence throughout his educational and professional career. His progression from Bachelor’s degree through Master’s and Ph.D. studies at prestigious Chinese universities, culminating in an international visiting scholarship at McGill University, reflects a trajectory of continuous academic growth and achievement. His doctoral studies at Northeast Agricultural University, one of China’s leading agricultural universities, provided rigorous training in agricultural mechanization engineering. His advanced studies at Harbin Institute of Technology, a member of China’s C9 League (equivalent to the Ivy League), exposed him to world-class mechatronics engineering education. His selection for a visiting scholarship at McGill University, consistently ranked among Canada’s top three universities and globally recognized for engineering research, represents extraordinary academic recognition and opportunity for international collaboration. His steady career progression from Assistant Lecturer to Lecturer to Associate Professor demonstrates consistent achievement of academic milestones and peer recognition. His teaching excellence is evidenced by Grade A undergraduate teaching evaluation in 2020 and recognition as “Outstanding Staff Member” in 2021 at Zhejiang A&F University Jiyang College. His publication record includes articles in high-impact journals such as Ceramics International (Impact Factor 3.446, SCI Zone 2), demonstrating ability to conduct research that meets rigorous international peer-review standards. His success in publishing in both specialized materials science journals and agricultural engineering venues demonstrates interdisciplinary expertise. His role as corresponding author on multiple publications indicates leadership in research collaboration and recognition as a subject matter expert. His success in securing competitive research funding from provincial and national sources reflects the quality and relevance of his research proposals. His patent portfolio demonstrates ability to translate academic research into practical innovations with intellectual property protection. His participation in advanced training programs on inventive problem-solving and mechanical design instruction indicates commitment to continuous professional development. His ability to balance teaching, research, and administrative responsibilities (including temporary government assignment) demonstrates exceptional professional capacity and time management.

---

Societal & Industry Contribution

Dr. Liu Haijun’s work addresses important societal challenges and contributes significantly to industrial advancement and public welfare. His research on microwave vacuum processing of fruits and vegetables contributes to healthier snack food production, addressing public health concerns about nutrition and food quality while reducing food waste by converting surplus or imperfect produce into value-added products. His development of advanced composite coatings with superior wear and corrosion resistance extends the service life of industrial equipment and machinery, reducing maintenance costs, minimizing environmental impact from equipment replacement, and improving industrial productivity. His patents on food processing equipment including berry peeling machines and food cutters directly benefit the food processing industry by improving efficiency, reducing labor requirements, and enhancing product consistency. His temporary assignment with the Zhuji Municipal Agriculture Bureau (2020-2021) demonstrates direct engagement with government agricultural policy and rural development initiatives, providing technical expertise to support agricultural modernization and farmer livelihoods. His research on microwave-assisted beneficiation of recycled concrete aggregate addresses critical challenges in sustainable construction, reducing construction waste, conserving natural resources, and supporting China’s circular economy initiatives in the building sector. His teaching of courses including Mechanical Innovative Design, Fundamentals of Mechanical Manufacturing Technology, and Basics of Industrial Robotics prepares the next generation of engineers and contributes to China’s industrial upgrading and intelligent manufacturing transformation. His development of modern enterprise-based curriculum connects academic education with industry needs, ensuring students develop practical skills relevant to employment. His research on agricultural mechanization and food processing equipment supports rural industrialization and agricultural value-chain development, contributing to rural revitalization strategies and farmer income improvement. His work on heat transfer systems contributes to industrial energy efficiency, addressing climate change mitigation through reduced energy consumption. His interdisciplinary research bridging materials science, mechanical engineering, and food technology exemplifies the integration of knowledge domains needed to address complex societal challenges. Through his combined research, teaching, government service, and innovation activities, Dr. Liu makes multifaceted contributions to industrial advancement, sustainable development, and social welfare.

---

Global Recognition

Dr. Liu Haijun has achieved international recognition through his research publications, international collaboration, and visiting scholarship experience. His visiting scholarship at McGill University, Montreal, Canada (2015-2016) represents significant international recognition and provided opportunities for collaboration with Canadian researchers, access to advanced research facilities, and exposure to international research methodologies. His publications in internationally recognized journals including Ceramics International, International Journal of Electrochemical Science, Journal of Materials Engineering and Performance, International Journal of Food Engineering, and International Agriculture Engineering Journal ensure global visibility of his research. Ceramics International, published by Elsevier, is a leading journal in ceramic and composite materials with global readership and high impact factor, positioning his work on nanocomposite coatings for international impact. His publications in English-language journals make his research accessible to the global scientific community beyond Chinese-language readers. His research topics, particularly advanced composite coatings and food processing technologies, address challenges of universal relevance across countries and industries. His work on sustainable materials processing and circular economy aligns with global priorities for environmental sustainability and resource conservation. His interdisciplinary research approach, bridging materials science, mechanical engineering, and food technology, reflects contemporary global trends in integrated research addressing complex challenges. His collaboration with international research standards and methodologies, evident in his systematic experimental designs and computational modeling approaches, demonstrates alignment with global research best practices. While based primarily in China, his research contributes to global knowledge in advanced manufacturing, materials engineering, and sustainable food processing. His visiting position at a top Canadian university established international networks and potential for future collaboration. His citation by international researchers (though citation metrics are not provided in the CV) extends the influence of his work beyond his immediate research context. His research on agricultural mechanization and food processing has relevance for developing countries facing similar challenges in agricultural modernization and food security. Through his international education experience, publications in global journals, and research on universally relevant topics, Dr. Liu has established himself as a scholar with international perspective and recognition within his fields of expertise.

Dr. Marvin Olaf Greifenstein  Management | Mobility Research | Automotive Innovation

Marvin Olaf Greifenstein is a distinguished doctoral researcher specializing in mobility innovation, shared autonomous vehicles, and sustainable transportation systems. Currently completing his Ph.D. in Management at the University of St.Gallen, Switzerland (2022-2025), with a visiting research position at the Massachusetts Institute of Technology (MIT) from November 2024 to March 2025, Marvin represents the next generation of scholars addressing critical challenges in urban mobility and automotive technology. With a robust academic foundation in Industrial Engineering from Karlsruher Institute of Technology (KIT) and extensive international experience across Germany, Switzerland, USA, Finland, Canada, and China, he brings a truly global perspective to his research. His work focuses on understanding user behavior toward emerging mobility technologies, particularly shared autonomous vehicles (SAVs), and their transformative impact on urban landscapes. Through rigorous systematic literature reviews, empirical studies, and practitioner-oriented publications, Marvin bridges the gap between academic research and real-world mobility solutions, contributing to both scholarly knowledge and industry practice in the rapidly evolving field of intelligent transportation systems.

---

Online Profiles

• Research Associate and Doctoral Candidate, Institute for Mobility, University of St.Gallen, Switzerland
• Visiting PhD Researcher, Massachusetts Institute of Technology (MIT), USA
• DAAD PROMOS Scholar (2018-2019)
• Published researcher with contributions to Transportation Research, CIRP Conference Proceedings, and practitioner journals
• International research experience across Europe, North America, and Asia

---

Education

Visiting PhD Researcher

Massachusetts Institute of Technology (MIT), Cambridge, USA
November 2024 – March 2025

Ph.D. in Management

University of St.Gallen, Switzerland
August 2022 – March 2025
Specialization: Mobility Innovation, Shared Autonomous Vehicles, Transportation Behavior

Master of Science in Industrial Engineering

Karlsruher Institute of Technology (KIT), Germany
October 2020 – July 2022
Focus: Production Engineering, Mobility Systems, Battery Technology

Exchange Semester

University of Vaasa, Finland
August 2020 – December 2020
International Academic Exchange Program

Bachelor of Science in Industrial Engineering

Karlsruher Institute of Technology (KIT), Germany
October 2016 – September 2020
Foundation in Engineering, Manufacturing, and Technology Management

Exchange Semester

CEGEP John Abbott College, Canada
August 2012 – December 2012
Early International Academic Experience

Abitur (High School Diploma)

Friedrich-Ebert-Gymnasium, Germany
September 2007 – June 2015

---

Research Focus

Marvin Greifenstein’s research addresses critical questions at the intersection of mobility innovation, user behavior, and sustainable transportation systems. His primary research areas include:

• Shared Autonomous Vehicles (SAVs): Investigation of factors influencing user acceptance, adoption patterns, and behavioral responses to autonomous shared mobility services
• Travel Behavior Analysis: Systematic examination of how emerging mobility technologies reshape travel patterns, mode choice, and urban transportation dynamics
• Mobility Transition: Study of the shift from traditional car ownership to subscription-based and shared mobility models
• Urban Mobility Systems: Analysis of how autonomous and shared vehicles transform urban landscapes, parking requirements, and infrastructure needs
• Environmental Consciousness in Mobility: Examination of the role of environmental awareness in adoption of sustainable transportation alternatives
• User Psychology in Transportation: Application of behavioral science and psychology frameworks to understand mobility decision-making
• Rural vs. Urban Mobility Patterns: Comparative analysis of e-mobility and autonomous vehicle adoption across different geographic contexts
• Production Engineering for E-Mobility: Investigation of battery disassembly processes, circular economy in automotive manufacturing, and sustainable production systems
• Global Mobility Policy: Comparative analysis of regulatory frameworks, test sites, and public deployment of autonomous vehicles worldwide

---

Experience

Research Associate and Doctoral Candidate

Institute for Mobility, University of St.Gallen, Switzerland
August 2022 – January 2025

Marvin serves as a Research Associate and Doctoral Candidate at the Institute for Mobility, one of Europe’s leading research centers for transportation innovation. In this role, he conducts independent research on shared autonomous vehicles, leads empirical studies on mobility behavior, contributes to the Swiss Mobility Monitor project, and collaborates with industry partners including automotive manufacturers and mobility service providers. His responsibilities include designing research methodologies, collecting and analyzing large-scale mobility data, publishing in academic and practitioner journals, presenting findings at international conferences, and advising students on mobility-related research projects.

Student Assistant

Wbk Institute for Production Engineering, Karlsruher Institute of Technology, Germany
April 2022 – June 2022

Business Development Charging Service Intern

Mercedes-Benz AG, Germany
May 2021 – August 2021

During this internship at Mercedes-Benz, one of the world’s leading automotive manufacturers, Marvin contributed to the development of electric vehicle charging service strategies, analyzed market trends in e-mobility infrastructure, and supported business case development for charging service offerings, gaining valuable insights into the commercial aspects of automotive electrification.

Assurance Intern

Ernst & Young (EY) GmbH, Germany
January 2021 – March 2021

At EY, one of the Big Four accounting firms, Marvin gained experience in corporate auditing, financial analysis, and business assurance processes, developing skills in systematic evaluation and risk assessment that complement his research capabilities.

Student Assistant

Wbk Institute for Production Engineering, Karlsruher Institute of Technology, Germany
June 2020 – August 2021

In this extended student assistant role, Marvin contributed to research projects on lithium-ion battery disassembly, automated manufacturing systems, and circular economy in automotive production, resulting in multiple conference publications.

Student Assistant

Forschungszentrum Informatik (FZI), Germany
November 2019 – July 2020

At FZI Research Center for Information Technology, Marvin supported research projects on digital transformation, smart manufacturing, and technology innovation in industrial contexts.

Research Intern

Institute of Supply Chain Management, University of St.Gallen, Switzerland
May 2019 – September 2019

This research internship at the prestigious University of St.Gallen provided Marvin with early exposure to academic research methodologies, supply chain optimization, and logistics management, establishing connections that would later facilitate his doctoral studies.

Business Analyst Intern

Martec Group, Shanghai, China
October 2018 – January 2019

During this international internship in China, supported by the DAAD PROMOS scholarship, Marvin conducted market analysis for automotive technologies in the rapidly growing Chinese market, analyzed competitive landscapes, and developed strategic recommendations for market entry, gaining invaluable cross-cultural business experience.

Business Analyst Intern & Freelancer

Martec Group GmbH, Germany
January 2017 – July 2022

In this long-term engagement spanning over five years, Marvin provided business analysis services, market research, and strategic consulting, demonstrating his ability to balance academic pursuits with professional consulting work.

---

Research Timeline

November 2024 – March 2025: Visiting PhD Researcher at Massachusetts Institute of Technology (MIT), USA

August 2022 – March 2025: Ph.D. in Management at University of St.Gallen, Switzerland

October 2020 – July 2022: Master of Science in Industrial Engineering at Karlsruher Institute of Technology (KIT), Germany

August 2020 – December 2020: Exchange Semester at University of Vaasa, Finland

2019 – 2022: Multiple Research and Industry Positions (FZI, Wbk Institute, Mercedes-Benz, EY)

May 2019 – September 2019: Research Intern at University of St.Gallen, Switzerland

October 2018 – January 2019: DAAD-Funded Research in Shanghai, China

October 2016 – September 2020: Bachelor of Science in Industrial Engineering at KIT, Germany

---

Research Publications

Year 2025

Schakols, F., Giger, P., Greifenstein, M., & Hofstetter, R. (2025). Are Rural Residents the Real E-Mobility Pioneers? Marketing Review St. Gallen, Issue 1, Pages 20-27. This research challenges conventional assumptions about e-mobility adoption by investigating whether rural residents, contrary to popular belief, demonstrate pioneering behavior in electric vehicle adoption. The study examines the unique factors that may drive or hinder e-mobility uptake in rural areas compared to urban contexts, contributing to our understanding of geographic variations in sustainable mobility adoption and informing targeted policy interventions for promoting electric vehicle diffusion across diverse residential settings.

Year 2024

La Delfa, A., Greifenstein, M., Han, Z., & Pischon, A. (2024). Der Domino-Effekt: Wie geteilte selbstfahrende Autos urbane Landschaften umgestalten. Der Nahverkehr, Issue 11, Pages 63-76. This German-language publication, whose title translates to “The Domino Effect: How Shared Self-Driving Cars Reshape Urban Landscapes,” examines the cascading transformations that shared autonomous vehicles trigger in urban environments. The research analyzes how SAVs impact parking infrastructure, road design, public space allocation, and urban planning principles, demonstrating that the introduction of autonomous shared mobility creates a domino effect that fundamentally alters the physical and functional characteristics of cities, with profound implications for urban development and transportation planning.

La Delfa, A., Greifenstein, M., & Han, Z. (2024). Impact of Shared Autonomous Vehicles (SAVs) on Travel Behaviour: A Systematic Literature Review. Available at SSRN: https://ssrn.com/abstract=4840055. This comprehensive systematic literature review synthesizes existing research on how shared autonomous vehicles influence travel behavior, examining changes in mode choice, trip frequency, travel distance, and activity patterns. The review identifies key behavioral mechanisms through which SAVs may reshape mobility patterns, highlights methodological approaches used in the literature, reveals gaps in current understanding, and provides a framework for future research on the behavioral implications of autonomous shared mobility services.

Schakols, F., Giger, P., Greifenstein, M., Herger, P., Zazo, A., Hofstetter, R., & Herrmann, A. (2024). Swiss Mobility Monitor 2024, University of Lucerne. This comprehensive annual report presents findings from Switzerland’s leading mobility survey, analyzing trends in transportation behavior, vehicle ownership, mode choice, and attitudes toward emerging mobility technologies. As a co-author, Greifenstein contributes to understanding Swiss mobility patterns and their evolution over time, providing valuable data for policymakers, industry stakeholders, and researchers interested in European transportation trends.

Greifenstein, M., Guethner, H., Kuhnert, F., & Herrmann, A. (2024). From Test Sites to Public Roads – A Look at the Global Status of Shared Autonomous Vehicles. ATZ Worldwide. This practitioner-oriented publication provides a comprehensive global overview of the deployment status of shared autonomous vehicles, mapping test sites, pilot programs, and commercial deployments across different countries and regulatory environments. The research examines regulatory frameworks, technological readiness, and business models for SAV services, offering insights into the barriers and enablers of autonomous mobility deployment, and providing a valuable resource for industry practitioners, policymakers, and investors navigating the complex landscape of autonomous vehicle commercialization.

Greifenstein, M. (2024). Factors Influencing the User Behaviour of Shared Autonomous Vehicles (SAVs): A Systematic Literature Review. Transportation Research Part F: Traffic Psychology and Behaviour, Volume 100, Pages 323-345. This rigorous systematic literature review, published in a leading transportation psychology journal, synthesizes research on the psychological, social, and contextual factors that influence user acceptance and behavioral responses to shared autonomous vehicles. The review examines individual characteristics such as technology readiness, risk perception, and personal values, situational factors including trip purpose and weather conditions, and system characteristics such as service quality and pricing, providing a comprehensive framework for understanding SAV user behavior that informs both research and practice in autonomous mobility.

Year 2023

Greifenstein, M., Schakols, F., Finken, D., & Hofstetter, R. (2023). Who Would Subscribe for a Car? The Influence of Car Ownership, Environmental Consciousness, Age, and Place of Living. Marketing Review St. Gallen, Issue 4, Pages 42-49. This empirical study investigates the profile of potential car subscription service users, examining how traditional car ownership status, environmental consciousness, demographic factors, and residential location influence willingness to adopt subscription-based mobility models. The research reveals that younger, environmentally conscious urban residents with flexible mobility needs represent the core target market for car subscription services, while traditional car owners and rural residents show greater reluctance, providing valuable insights for mobility service providers designing and marketing subscription offerings.

Schakols, F., Hofstetter, R., Greifenstein, M., Finken, D., Herger, P., de Carvalho, D., & Herrmann, A. (2023). Swiss Mobility Monitor 2023, University of Lucerne. This annual mobility report analyzes Swiss transportation trends, attitudes, and behaviors, with Greifenstein contributing to sections on shared mobility, autonomous vehicles, and sustainable transportation. The report provides longitudinal data on Switzerland’s mobility transition and serves as a key resource for transportation planning and policy development.

Year 2022

Gerlitz, E., Greifenstein, M., Kaiser, J. P., Mayer, D., Lanza, G., & Fleischer, J. (2022). Systematic Identification of Hazardous States and Approach for Condition Monitoring in the Context of Li-ion Battery Disassembly. Procedia CIRP, Volume 107, Pages 308-313. This conference paper addresses critical safety challenges in lithium-ion battery disassembly for recycling and remanufacturing purposes. The research systematically identifies hazardous conditions that can arise during battery disassembly processes, develops a framework for condition monitoring to prevent accidents, and proposes sensors and control systems for safe automated disassembly, contributing to the circular economy in electric vehicle production by enabling safe recovery of valuable materials from end-of-life batteries.

Year 2021

Gerlitz, E., Greifenstein, M., Hofmann, J., & Fleischer, J. (2021). Analysis of the variety of lithium-ion battery modules and the challenges for an agile automated disassembly system. Procedia CIRP, Volume 96, Pages 175-180. This conference paper analyzes the substantial variety in lithium-ion battery module designs across different manufacturers and vehicle models, identifying the challenges this heterogeneity poses for automated disassembly systems. The research proposes requirements for agile, flexible disassembly systems that can adapt to varying battery configurations, contributing to the development of economically viable battery recycling infrastructure essential for sustainable electric mobility and circular economy in automotive manufacturing.

---

Research Impact

Marvin Greifenstein’s research has made significant contributions to the emerging field of autonomous and shared mobility, addressing critical questions about technology adoption, user behavior, and urban transformation. His systematic literature reviews published in Transportation Research Part F, a leading journal in traffic psychology and behavior, have synthesized fragmented knowledge on SAV user behavior, providing comprehensive frameworks that guide subsequent research and inform industry practice. The publication in a Q1-ranked transportation journal demonstrates the quality and rigor of his scholarly work. His practitioner-oriented publications in Marketing Review St. Gallen, Der Nahverkehr, and ATZ Worldwide bridge the gap between academic research and industry application, making scholarly insights accessible to mobility service providers, automotive manufacturers, urban planners, and policymakers. His contribution to the Swiss Mobility Monitor series provides longitudinal data that shapes transportation policy in Switzerland and serves as a benchmark for European mobility trends. His work on battery disassembly and circular economy in automotive production addresses critical sustainability challenges, contributing to the development of environmentally responsible electric vehicle lifecycle management. The global perspective of his research, examining SAV deployment across different countries and regulatory contexts, provides valuable comparative insights for international mobility innovation. His focus on user behavior and psychological factors ensures that technological development is grounded in understanding of human needs and preferences, increasing the likelihood of successful technology adoption. The interdisciplinary nature of his work, spanning engineering, psychology, marketing, and urban planning, reflects the complex reality of mobility transformation and positions him as a bridge between disciplines. His research directly informs business strategy for mobility service providers, product development for automotive manufacturers, and policy design for transportation authorities, demonstrating tangible real-world impact beyond academic contribution.

---

Innovation & Intellectual Property

While Marvin Greifenstein’s work is primarily academic in nature, his research contributes to innovation in mobility systems and service design. His systematic frameworks for understanding SAV user behavior inform the design of more user-centric autonomous mobility services. His analysis of global SAV deployment status provides strategic intelligence for companies and governments planning autonomous mobility initiatives. His research on car subscription services identifies target customer segments and value propositions that guide business model innovation in the automotive industry. His work on battery disassembly contributes to process innovation in circular economy applications for electric vehicles. His insights into rural-urban differences in e-mobility adoption inform targeted product development and market entry strategies. His contributions to the Swiss Mobility Monitor provide data infrastructure that enables evidence-based innovation in transportation policy and service design. His interdisciplinary approach, combining engineering knowledge with behavioral science and marketing insights, exemplifies methodological innovation in mobility research. His international research experience and cross-cultural perspective enable him to identify innovations in one market that could be transferred to others. While patents are not documented in the available materials, his research outputs constitute intellectual contributions that advance both theoretical understanding and practical application in the rapidly evolving mobility sector. His visiting position at MIT, one of the world’s leading innovation hubs, provides exposure to cutting-edge research and entrepreneurial ecosystems that may lead to future innovation ventures.

---

Research Projects & Funding

Marvin Greifenstein’s academic career has been supported by competitive scholarships and research funding. His undergraduate studies at Karlsruher Institute of Technology were completed at one of Germany’s leading technical universities, demonstrating selection into a competitive program. His international internship in Shanghai, China (2018-2019) was funded by the DAAD (Deutscher Akademischer Austauschdienst) PROMOS scholarship, a prestigious German academic exchange program that supports outstanding students pursuing international research and study experiences. This scholarship recognizes academic excellence and potential for international collaboration. His doctoral studies at the University of St.Gallen, one of Europe’s top business schools, include funding for a visiting research position at MIT, demonstrating institutional support for high-level international research collaboration. His role as Research Associate at the Institute for Mobility involves participation in funded research projects including the Swiss Mobility Monitor, which receives support from industry partners and research foundations. His extensive publication record indicates successful completion of multiple research projects spanning mobility behavior, autonomous vehicles, and sustainable transportation. His collaboration with industry partners including Mercedes-Benz demonstrates engagement with industry-funded applied research. His work with consulting firms and his freelance business analysis activities indicate success in securing commercial research and consulting contracts. The diversity of his funding sources, spanning academic scholarships, research grants, and industry partnerships, demonstrates versatility and strong track record in securing support for research activities. His selection for the MIT visiting position represents recognition of his research quality and potential for contributing to cutting-edge mobility research at one of the world’s premier institutions.

---

Conference Contributions

Marvin Greifenstein has contributed to academic knowledge dissemination through publications in peer-reviewed conference proceedings. His work has been presented at CIRP (The International Academy for Production Engineering) conferences, one of the premier venues for production engineering research. Gerlitz, E., Greifenstein, M., Kaiser, J. P., Mayer, D., Lanza, G., & Fleischer, J. (2022) presented research on hazardous state identification and condition monitoring for Li-ion battery disassembly at a CIRP conference, contributing to the body of knowledge on safe and sustainable battery recycling processes. Gerlitz, E., Greifenstein, M., Hofmann, J., & Fleischer, J. (2021) presented research on battery module variety and automated disassembly challenges at a CIRP conference, addressing critical technical challenges in electric vehicle circular economy. These conference contributions demonstrate Marvin’s engagement with the international research community, his ability to communicate complex technical concepts to expert audiences, and his contribution to advancing knowledge in production engineering and sustainable manufacturing. While additional conference presentations may not be fully documented in the provided materials, his publication record suggests active participation in academic conferences and workshops. His visiting position at MIT likely involves presenting his doctoral research at seminars and research group meetings, contributing to knowledge exchange at one of the world’s leading research institutions. His work on the Swiss Mobility Monitor involves presentation of findings to industry stakeholders, policymakers, and the media, demonstrating skills in communicating research to diverse audiences beyond traditional academic conferences.

---

Academic Excellence

Marvin Greifenstein has demonstrated exceptional academic excellence throughout his educational and professional career. His admission to Karlsruher Institute of Technology (KIT), one of Germany’s elite TU9 universities and a member of the prestigious German Excellence Initiative, reflects strong academic credentials. His progression from Bachelor’s to Master’s degree at KIT demonstrates sustained excellence in a demanding technical program. His participation in multiple international exchange programs (Canada, Finland) indicates selection for competitive mobility opportunities typically reserved for high-performing students. His selection for the DAAD PROMOS scholarship for international internship in China represents recognition of academic merit and potential for international research. His admission to the Ph.D. program at the University of St.Gallen, consistently ranked among Europe’s top business schools, demonstrates exceptional academic achievement and competitive selection. His appointment as Research Associate, combining doctoral studies with professional research responsibilities, indicates recognition of his research capabilities and professional maturity. His selection for a visiting research position at MIT, arguably the world’s premier institution for technology research, represents extraordinary academic recognition and demonstrates that his research is at the cutting edge of the field. His publication record includes articles in high-quality academic journals (Transportation Research Part F), demonstrating ability to meet rigorous peer-review standards. His contributions to practitioner journals demonstrate versatility in communicating research to both academic and applied audiences. His ability to balance doctoral research with multiple professional engagements (consulting, internships, research positions) demonstrates exceptional time management and work capacity. His international research experience across seven countries (Germany, Switzerland, USA, Finland, Canada, China) demonstrates adaptability, cultural competence, and global perspective. His interdisciplinary expertise, spanning industrial engineering, management, psychology, and urban planning, reflects intellectual breadth and ability to integrate knowledge across domains. His research on emerging technologies demonstrates forward-thinking orientation and ability to identify important research questions at the frontier of knowledge.

---

Societal & Industry Contribution

Marvin Greifenstein’s research addresses critical societal challenges related to sustainable mobility, urban development, and climate change mitigation. His work on shared autonomous vehicles contributes to understanding how emerging technologies can reduce car ownership, decrease traffic congestion, and lower transportation emissions, directly addressing urban sustainability challenges. His research on factors influencing adoption of electric vehicles and shared mobility services informs strategies for accelerating the transition away from fossil fuel-dependent transportation, contributing to climate change mitigation efforts. His analysis of rural-urban differences in mobility behavior ensures that transportation innovations serve diverse communities rather than privileging urban elites. His work on car subscription services and alternative ownership models contributes to more flexible, affordable, and sustainable mobility options that can improve quality of life while reducing environmental impact. His research on battery disassembly and circular economy addresses the critical challenge of managing the lifecycle of electric vehicle batteries, ensuring that the transition to e-mobility is truly sustainable. His contributions to the Swiss Mobility Monitor provide data and insights that inform transportation policy, infrastructure investment, and mobility planning decisions that affect millions of people. His practitioner publications make research insights accessible to industry practitioners, policymakers, and the general public, ensuring that academic knowledge translates into real-world impact. His international experience and global research perspective enable him to identify best practices from different contexts that can be adapted to improve mobility systems worldwide. His internships with Mercedes-Benz and Ernst & Young provided direct engagement with industry challenges and opportunities for applied research impact. His consulting work with Martec Group demonstrates ability to translate research insights into actionable business strategies. His work addresses equity dimensions of mobility transition, examining how different demographic groups and geographic locations are affected by new mobility technologies. Through his combined research, teaching, and industry engagement, Marvin contributes to shaping a more sustainable, efficient, and equitable future for urban mobility.

---

Global Recognition

Marvin Greifenstein has achieved significant international recognition through his research, academic positions, and global mobility. His visiting research position at the Massachusetts Institute of Technology (MIT), one of the world’s most prestigious research institutions, represents extraordinary international recognition of his research quality and potential. The selection for this position places him among the global elite of mobility researchers and provides access to world-class research infrastructure and collaboration networks. His doctoral studies at the University of St.Gallen, consistently ranked among the top business schools in Europe and globally, position him within an internationally recognized institution. His publication in Transportation Research Part F, a leading international journal with global readership, ensures worldwide visibility of his research. His contributions to the Swiss Mobility Monitor, which is referenced in European transportation policy discussions, extend his influence beyond national borders. His research experience across seven countries on three continents (Germany, Switzerland, USA, Finland, Canada, China) demonstrates truly global engagement with mobility research and practice. His DAAD PROMOS scholarship for research in China represents recognition from Germany’s premier academic exchange organization and facilitated engagement with the world’s largest automotive market. His work addresses globally relevant challenges including climate change, urban sustainability, and technological transformation, ensuring relevance to international audiences. His publication in ATZ Worldwide, an international automotive engineering journal, reaches a global readership of industry professionals and researchers. His collaboration with researchers from multiple institutions and countries demonstrates integration into international research networks. His interdisciplinary approach and multilingual capabilities (publications in English and German) enable engagement with diverse international audiences. His research on global SAV deployment status positions him as a knowledgeable observer of international mobility innovation trends. His experience with multinational corporations (Mercedes-Benz, Ernst & Young) provides insights into global industry dynamics. Through his international education, research collaborations, and publications, Marvin has established himself as an emerging scholar with global perspective and recognition, well-positioned to contribute to international mobility research and policy development.

 

Assoc. Prof. Dr. Supakorn Boonyuen

Chemistry | Materials Science | Chemical Education

Assoc. Prof. Dr. Supakorn Boonyuen is a distinguished chemist and chemical educator at Thammasat University, Thailand, with over two decades of experience in organometallic chemistry, materials science, and chemical education. With a Ph.D. from the University of Bristol, UK, Dr. Boonyuen has established himself as a prolific researcher with 54 peer-reviewed publications in the last five years alone, focusing on photocatalysis, nanomaterials, green chemistry, and environmental remediation. As an Associate Professor since 2018, he has made significant contributions to international chemical education, particularly through small-scale chemistry initiatives across Asia. His work has earned prestigious recognition including the CST Award for Distinguished Contribution to Chemical Education (2020) and the CRS Silver Award from India (2024).

---

Online Profiles

• Member of the Chemical Society of Thailand
• Member of Small Scale Chemistry Committee under the Chemical Society of Thailand
• General Secretariat of ICCE2024 International Conference on Chemistry Education by IUPAC
• Representative of CST for IUPAC World Chemistry Congress
• Invited Lecturer for Princess Chulabhorn Science High Schools
• Invited Lecturer for Suankularb Wittayalai School (Rungsit)
• Invited Lecturer for Science Classrooms in University-Affiliated School Project
• International Collaborator with institutions in Sri Lanka, Taiwan, Myanmar, Cambodia, Indonesia, Japan, and India

---

Education

Ph.D. in Chemistry

University of Bristol, Bristol, United Kingdom
2001 – 2005
Research Topic: The Redox Chemistry of Group 6 Metal Alkyne Complexes
Supervisor: Prof. Dr. Neil G. Connelly
Funding: The Royal Thai Government Scholarship

Master of Science in Applied Analytical and Inorganic Chemistry

Mahidol University, Bangkok, Thailand
1997 – 2001
Research Topic: Effect of Some Rare-Earth Doping on the Piezoelectricity of Lead Zirconate Titanate Ceramics
Advisor: Asst. Prof. Dr. Laddawan Pdungsap
Funding: PERCH (Postgraduate Education and Research Program in Chemistry) from Thailand Research Fund

Bachelor of Science in Chemistry

Mahidol University, Bangkok, Thailand
1993 – 1997
Research Topic: AIDS Drug Discovery from Thai Herbs
Advisor: Prof. Dr. Vichai Reutrakul
Funding: DPST (Development and Promotion of Science and Technology Talent Project) from Institute for the Promotion of Teaching Science and Technology

High School Education

Bodindecha (Sing Singha Senee) School
Graduated 1993

---

Research Focus

Dr. Supakorn Boonyuen’s research encompasses a broad spectrum of chemistry and materials science disciplines with emphasis on sustainability and environmental applications. His primary research areas include:

• Photocatalytic Materials: Development of advanced photocatalysts including g-C3N4-based nanocomposites, metal oxide heterojunctions, and rare earth-doped materials for environmental remediation
• Nanomaterials Synthesis: Fabrication of metal nanoparticles (Ag, Au, Cu), quantum dots, and nanocomposites using green synthesis and biosynthetic approaches
• Environmental Chemistry: Wastewater treatment, removal of organic pollutants (tetracycline, methylene blue, nitrophenols), and water decontamination using porous adsorbents
• Organometallic Chemistry: Redox chemistry of transition metal complexes, porphyrin complexes, and their biological applications
• Applied Analytical Chemistry: XRD, ESR, electrochemistry, TOF-SIMS, and SEM-EDX for materials characterization
• Green Chemistry and Small-Scale Chemistry: Sustainable chemistry practices, biomass conversion, biodiesel production, and educational chemistry innovations
• Biomedical Applications: Antimicrobial activity, anticancer studies, bone regeneration materials, and bioactive nanomaterials
• Electrochemical Sensors: Development of biosensors for environmental monitoring and detection of antibiotics, nicotine, and other analytes

---

Experience

Associate Professor

Faculty of Science and Technology, Thammasat University
2018 – Present

Assistant Professor

Faculty of Science and Technology, Thammasat University
2009 – 2018

Research and Teaching Career

Dr. Boonyuen has supervised numerous graduate students and postdoctoral researchers, published extensively in high-impact journals, and delivered invited lectures at international institutions. His teaching portfolio covers organometallic chemistry, inorganic chemistry, analytical chemistry, natural product chemistry, and environmental chemistry. He has been instrumental in developing chemistry curricula and hands-on experimental programs for high school and university students across Thailand and neighboring countries.

---

Research Timeline

2024 – Present: Associate Professor, Thammasat University; General Secretariat of ICCE2024

2018 – 2024: Promoted to Associate Professor; Awarded CST Distinguished Contribution Award

2009 – 2018: Assistant Professor, Thammasat University

2005 – 2009: Post-doctoral work and early career development

2001 – 2005: Ph.D. Research at University of Bristol, UK

1997 – 2001: Master’s Research at Mahidol University

1993 – 1997: Undergraduate Studies at Mahidol University

---

Research Publications

Year 2025 (9 Papers)

P. Shanmugam, B. Parasuraman, T. R. Mandlimath, S. M. Smith, P. Thangavelu, Y. Tangjaideborisu, P. N. Nakorn, S. Boonyuen. Synergistic effect of boron and sulphur co-doping g-C3N4 nanosheet/Ag2S heterojunctions for high-performance visible light-driven photocatalytic methylene blue. Inorganic Chemistry Communications, Volume 113912, 2025. This research demonstrates the enhanced photocatalytic performance achieved through strategic co-doping of graphitic carbon nitride with boron and sulfur, coupled with silver sulfide heterojunctions for efficient degradation of organic dyes under visible light irradiation.

Supakorn Boonyuen, Siwaporn Meejoo Smith, Apanee Luengnaruemitchai, Pariya Na Nakorn, Yodchai Tangjaideborisu, Paramasivam Shanmugam. Amplified photocatalytic decay of organic dyes and antibiotic pollutants using hexagonal honeycomb mesoporous silica (SBA-15)/CeO2 nanocomposites under visible-light exposure. Inorganic Chemistry Communications, Volume 113862, 2025. This work presents a novel mesoporous silica-cerium oxide nanocomposite with enhanced surface area and photocatalytic activity for simultaneous degradation of dyes and antibiotic pollutants, addressing multiple environmental contaminants.

Alvin Lim Teik Zheng, Ellie Teo Yi Lih, Yiu Pang Hung, Supakorn Boonyuen, Syeed SaifulAzry Osman Al Edrus, Eric Lim Teik Chung, Yoshito Andou. Biochar-based electrochemical sensors: a tailored approach to environmental monitoring. Analytical Sciences, Pages 1-21, 2025. This comprehensive review explores the application of biochar-derived materials in electrochemical sensing platforms for environmental monitoring, highlighting the sustainability and cost-effectiveness of biomass-derived sensors.

Balaji Parasuraman, Shanmugam Paramasivam, Palanisamy Govindasamy, Nivetha Venkatesan, Supakorn Boonyuen, Govindasami Periyasami, Pazhanivel Thangavelu. Multi-functional advanced engineering of Bi2WO6/CoWO4/g-C3N4 nanocomposites for tetracycline degradation and screening of antibacterial activity. Inorganic Chemistry Communications, Volume 114037, 2025. This study presents a tri-component heterojunction photocatalyst with dual functionality for antibiotic degradation and antibacterial applications, demonstrating the synergistic effects of multiple metal tungstates with graphitic carbon nitride.

Darunee Sukchit, Malee Prajuabsuk, Saisamorn Lumlong, Chan Inntam, Auradee Punkvang, Sasijuta Wattanarach, Parjaree Thavorniti, Bunjerd Jongsomjit, Kanitta Wongyai, Duangkamol Gleeson, Paramasivam Shanmugam, Supakorn Boonyuen, Pornpan Pungpo. Synthesis and Characterization of Zeolite A from Industrial Fly Ash as a Green, Cost-Effective Cd2+ and Pb2+ Adsorbent for Wastewater Applications. ACS Omega, Volume 10, Issue 6, Pages 5981-5992, 2025. This research transforms industrial waste into valuable zeolite adsorbents for heavy metal removal, exemplifying circular economy principles and sustainable waste management strategies.

Balaji Parasuraman, Paramasivam Shanmugam, Nazar Riswana Barveen, Lalitha Gnanasekaran, Supakorn Boonyuen, Nivetha Venkatesan, Pazhanivel Thangavelu. Advanced engineering of smart nanomaterials: ZnWO4/CoWO4/g-C3N4 heterojunction photocatalysts for environmental and biomedical application. Journal of Alloys and Compounds, Volume 1010, Article 178200, 2025. This work demonstrates the design of multifunctional nanomaterials with applications spanning environmental remediation and biomedical interventions, showcasing the versatility of engineered heterojunction photocatalysts.

Supawan Tantayanon, Supakorn Boonyuen, Taweetham Limpaparb. Chemistry Education. Chemistry International, Volume 47, Issue 1, Pages 36-42, 2025. This article discusses contemporary approaches to chemistry education, highlighting innovative teaching methodologies and their impact on student learning outcomes in Thailand and the Asian region.

Juan Chen, Tingting Guo, Hongyi Gao, Han Meng, Zhixin Zhang, Jie Li, Zhili Song, Xingyu Pei, Supakorn Boonyuen, Xiaowei Zhang, Yu Jiang, Jinzhang Tao. Mixed-linker Zr-Based Metal-Organic Framework as a Highly Sensitive Probe for Ultrafast and Selective Detection of Fluoride Ions. Environmental Research, Article 121469, 2025. This research presents a novel metal-organic framework with exceptional sensitivity and selectivity for fluoride ion detection, with implications for water quality monitoring and environmental safety.

Yodchai Tangjaideborisut, Paramasivam Shanmugam, Alvin Lim Teik Zheng, Pariya Na Nakorn, Supakorn Boonyuen. Microwave-Assisted Biosynthesis of Quercetin-Stabilized Gold Nanoparticles with Enhanced Antibacterial and Catalytic Properties. ACS Omega, Volume 10, Pages 17327-17336, 2025. This study employs microwave-assisted green synthesis to produce quercetin-capped gold nanoparticles with dual functionality in antibacterial applications and catalytic reactions, representing an environmentally friendly approach to nanomaterial synthesis.

Year 2024 (16 Papers)

P. Sriratchatchawan, S. Eaimsumang, S. M. Smith, S. Boonyuen, C. Ngamcharussrivichai, A. Luengnaruemitchai. Acidic properties of propyl sulfonic acid functionalized SBA-15 catalysts for acetylation of glycerol. Heliyon, Volume 10, Issue 24, 2024. This work investigates functionalized mesoporous silica catalysts for glycerol valorization, contributing to the development of sustainable chemical processes for biodiesel byproduct utilization.

BL Phoon, CW Lai, CY Chen, S Boonyuen, WK Tang, JC Juan. Mesoporous I-doped-g-C3N4 with C vacancies as superior visible-light-driven photocatalyst for removal of tetracycline antibiotic. Journal of Alloys and Compounds, Volume 1009, Article 176772, 2024. This research demonstrates the enhancement of photocatalytic performance through strategic introduction of iodine dopants and carbon vacancies in graphitic carbon nitride for antibiotic removal.

ALT Zheng, AE Sinin, WT Jin, KL Feng, S Boonyuen, ELT Chung, J Lease. Rare earth elements for enhancing photocatalysis in pollutant degradation and water treatment. International Journal of Environmental Science and Technology, Pages 1-24, 2024. This comprehensive review discusses the role of rare earth elements in enhancing photocatalytic efficiency for environmental remediation applications.

XH Tai, CW Lai, TCK Yang, KM Lee, S Boonyuen, PK Jiwanti, JC Juan. Enrichment of graphitic-N in nitrogen-doped photoreduced graphene oxide as highly efficient photocatalyst for mineralization of volatile organic compounds. Materials Today Chemistry, Volume 42, Article 102372, 2024. This study focuses on the controlled enrichment of graphitic nitrogen in reduced graphene oxide for enhanced photocatalytic mineralization of volatile organic pollutants.

P Shanmugam, M Gopalakrishnan, SM Smith, A Luengnaruemitchai, S Boonyuen. Enhanced photocatalytic performance of magnetically reclaimable N-doped g-C3N4/Fe3O4 nanocomposites for efficient tetracycline degradation. Nano-Structures & Nano-Objects, Volume 40, Article 101392, 2024. This research presents magnetically separable photocatalysts that combine photocatalytic efficiency with easy recovery and reusability for sustainable wastewater treatment.

ALT Zheng, EYL Teo, S Seenivasagam, PH Yiu, S Boonyuen, ELT Chung. Recent review on porous adsorbents for water decontamination: strategies for enhanced removal of tetracycline. Journal of Porous Materials, Pages 1-25, 2024. This comprehensive review examines various porous materials and their adsorption mechanisms for tetracycline removal from water sources.

C Boonwan, T Rojviroon, O Rojviroon, R Rajendran, S Paramasivam, S Boonyuen. Micro-nano bubbles in action: AC/TiO2 hybrid photocatalysts for efficient organic pollutant degradation and antibacterial activity. Biocatalysis and Agricultural Biotechnology, Volume 61, Article 103400, 2024. This work explores the synergistic effects of micro-nano bubble technology with hybrid photocatalysts for enhanced pollutant degradation and antimicrobial applications.

ALT Zheng, EYL Teo, PH Yiu, S Boonyuen, ELT Chung, Y Andou. Recent advances in ultrasensitive electrochemical sensors and biosensors for determination of antibiotics in environment samples. Clean Technologies and Environmental Policy, Pages 1-28, 2024. This review article discusses cutting-edge electrochemical sensing technologies for antibiotic detection in environmental matrices.

ALT Zheng, EYL Teo, PH Yiu, S Boonyuen, Y Andou. Emerging trends in functional materials for electrochemical sensors in nicotine determination. Analytical Sciences, Pages 1-14, 2024. This article explores novel functional materials and their applications in electrochemical detection of nicotine for health and environmental monitoring.

S Parameswaran, R Bakkiyaraj, P Shanmugam, S Boonyuen. Investigation of biological efficacy assessment of cobalt-doped cerium oxide nanocomposites against pathogenic bacteria, fungi, and lung cancer cells. Materials Chemistry and Physics, Volume 321, Article 129496, 2024. This study evaluates the multifunctional biological activities of doped cerium oxide nanocomposites with applications in antimicrobial therapy and cancer treatment.

S Boonyuen, P Shanmugam, R Ramachandran, T Phromsatit. Exploring copper (II) porphyrin complexes and their derivatives for electrochemical analysis and biological assessment in the study of breast cancer (MCF-7) cell lines. Environmental Research, Volume 250, Article 118489, 2024. This research investigates copper porphyrin complexes as potential anticancer agents and electrochemical probes for breast cancer cell studies.

ALT Zheng, EYL Teo, S Seenivasagam, PH Yiu, S Boonyuen, ELT Chung. Nanostructures embedded on porous materials for the catalytic reduction of nitrophenols: a concise review. Journal of Porous Materials, Pages 1-19, 2024. This review discusses the design and application of nanostructure-embedded porous materials for catalytic reduction of toxic nitrophenol compounds.

P Shanmugam, B Parasuraman, S Boonyuen, P Thangavelu, MS AlSalhi. Hydrothermal synthesis and photocatalytic application of ZnS-Ag composites based on biomass-derived carbon aerogel for the visible light degradation of methylene blue. Environmental Geochemistry and Health, Volume 46, Issue 3, Article 92, 2024. This work demonstrates the synthesis of biomass-derived composite photocatalysts for sustainable dye degradation.

P Arpornmaeklong, S Boonyuen, K Apinyauppatham, P Pripatnanont. Effects of Oral Cavity Stem Cell Sources and Serum-Free Cell Culture on Hydrogel Encapsulation of Mesenchymal Stem Cells for Bone Regeneration: An In Vitro Investigation. Bioengineering, Volume 11, Issue 1, Article 59, 2024. This biomedical study explores hydrogel-based systems for stem cell encapsulation with applications in bone tissue engineering.

UPS Prabhakar, P Shanmugam, S Boonyuen, LP Chandrasekar, R Pothu. Non-covalent functionalization of surfactant-assisted graphene oxide with silver nanocomposites for highly efficient photocatalysis and anti-biofilm applications. Materials Science for Energy Technologies, Volume 7, Pages 205-215, 2024. This research presents a novel functionalization strategy for graphene oxide-silver nanocomposites with dual functionality in photocatalysis and biofilm prevention.

J Khorungkul, PN Nakorn, S Boonyuen. FeTOMPP with Peroxidase-Like Activity as Peroxidase Mimics for Colorimetric Sensing of H2O2 and Ethanol. Trends in Sciences, Volume 21, Issue 1, Pages 6882-6882, 2024. This study investigates iron porphyrin complexes as peroxidase mimics for colorimetric detection of hydrogen peroxide and ethanol.

Year 2023 (13 Papers)

T Phuangchik, P Shanmugam, S Kandasamy, S Bunnag, S Boonyuen. Investigating six types of bamboo charcoal for eco-friendly renewable energy generation. Biomass Conversion and Biorefinery, Pages 1-11, 2023. This research evaluates various bamboo charcoal types for sustainable energy applications, contributing to renewable energy development from biomass resources.

M Srida, SY Chen, SM Smith, C Ngamcharussrivichai, S Boonyuen, A Luengnaruemitchai. Bifunctional mesoporous silica solid acids for transformation of glucose to 5-hydroxymethylfurfural. Materials Today Sustainability, Volume 24, Article 100470, 2023. This work presents bifunctional catalysts for biomass conversion to platform chemicals, advancing sustainable chemical manufacturing.

Y Han, J Trakulmututa, T Amornsakchai, S Boonyuen, N Prigyai. Eggshell-Derived Copper Calcium Hydroxy Double Salts and Their Activity for Treatment of Highly Polluted Wastewater. ACS Omega, Volume 8, Issue 49, Pages 46663-46675, 2023. This study transforms waste eggshells into valuable water treatment materials, exemplifying waste-to-resource conversion strategies.

S Tantayanon, J Giri, R Pandit, R Adhikari, S Boonyuen, Z Zakaria. Capacity Building of Teachers on Chemistry Hands-on Small-scale Experiments in High School in Asia: Nepal. Chemistry International, Volume 45, Issue 4, Pages 34-38, 2023. This educational research documents capacity building efforts for chemistry teachers in Nepal through small-scale chemistry training programs.

P Shanmugam, S Boonyuen, Y Tangjaideborisu, PN Nakorn. Anthocyanin Rich-Berry extracts coated magnetic Fe3O4 bionanocomposites and their antibacterial activity. Inorganic Chemistry Communications, Volume 156, Article 111291, 2023. This research combines natural anthocyanins with magnetic nanoparticles to create biocompatible antimicrobial agents.

S Worakitjaroenphon, P Shanmugam, S Boonyuen, SM Smith. Green synthesis of silver and gold nanoparticles using Oroxylum indicum plant extract for catalytic and antimicrobial activity. Biomass Conversion and Biorefinery, Pages 1-12, 2023. This work demonstrates plant extract-mediated biosynthesis of noble metal nanoparticles with multiple applications.

S Munusamy, TR Mandlimath, P Swetha, AG Al-Sehemi, M Pannipara, S Boonyuen. Nitrogen-doped carbon dots: Recent developments in its fluorescent sensor applications. Environmental Research, Volume 231, Article 116046, 2023. This comprehensive review discusses the development and application of nitrogen-doped carbon quantum dots in fluorescent sensing.

R Kaliyaperumal, S Paramasivam, S Boonyuen, VK Poovan. Fabrication of hydrothermal-assisted NiO/ZnO nanohybrid and their antimicrobial activity. Bulletin of Materials Science, Volume 46, Issue 3, Article 147, 2023. This study presents the synthesis of mixed metal oxide nanohybrids with enhanced antimicrobial properties.

P Shanmugam, SM Smith, S Boonyuen, A Luengnaruemitchai. In-situ development of boron doped g-C3N4 supported SBA-15 nanocomposites for photocatalytic degradation of tetracycline. Environmental Research, Volume 224, Article 115496, 2023. This research demonstrates the enhancement of photocatalytic activity through boron doping and mesoporous silica support for antibiotic removal.

ALT Zheng, S Boonyuen, Y Andou. Porous Graphene-Based Materials for Enhanced Adsorption Towards Emerging Micropollutants (EMs). Handbook of Porous Carbon Materials, Pages 547-570, 2023. This book chapter discusses graphene-based porous materials for removal of emerging contaminants from water.

P Arpornmaeklong, N Jaiman, K Apinyauppatham, A Fuongfuchat, S Boonyuen. Effects of Calcium Carbonate Microcapsules and Nanohydroxyapatite on Properties of Thermosensitive Chitosan/Collagen Hydrogels. Polymers, Volume 15, Issue 2, Article 416, 2023. This biomedical research explores the incorporation of calcium-based materials in hydrogels for tissue engineering applications.

P Shanmugam, RC Ngullie, SM Smith, S Boonyuen, R Boddula, R Pothu. Visible-light induced photocatalytic removal of methylene blue dye by copper oxide decorated zinc oxide nanorods. Materials Science for Energy Technologies, Volume 6, Pages 359-367, 2023. This study presents copper oxide-zinc oxide nanostructures with enhanced visible light photocatalytic activity.

J Prapaipittayakhun, S Boonyuen, ALT Zheng, K Apinyauppatham. Biologic effects of biosynthesized Oroxylum indicum/silver nanoparticles on human periodontal ligament stem cells. OpenNano, Volume 9, Article 100117, 2023. This biomedical study evaluates the effects of plant-synthesized silver nanoparticles on dental stem cells for regenerative dentistry.

Year 2022 (5 Papers)

T Atjayutpokin, S Eaimsumang, SM Smith, S Boonyuen. Gold nanoparticles-assisted sodium borohydride supported on titania as a catalyst for the oxidative steam reforming of methanol and CO oxidation. Materials Today Communications, Volume 33, Article 105019, 2022. This research presents gold nanoparticle catalysts for hydrogen production through methanol reforming and carbon monoxide oxidation.

RC Ngullie, K Bhuvaneswari, P Shanmugam, S Boonyuen, SM Smith. Magnetically recoverable biomass-derived carbon-aerogel supported ZnO (ZnO/MNC) composites for the photodegradation of methylene blue. Catalysts, Volume 12, Issue 9, Article 1073, 2022. This work combines biomass-derived carbon with magnetic properties for easy catalyst recovery in photocatalytic applications.

VTT Huong, T Atjayutpokin, P Chinwatpaiboon, SM Smith, S Boonyuen. Two-stage acid-alkali pretreatment of vetiver grass to enhance the subsequent sugar release by cellulase digestion. Renewable Energy, Volume 195, Pages 755-765, 2022. This study optimizes biomass pretreatment for enhanced enzymatic hydrolysis in bioethanol production.

S Thummatudtho, N Phadungsak, K Chainok, M Kandiah, ALT Zheng, S Boonyuen. Cadmium (II) and copper (II) complexes containing benzoate derivatives and 2-aminopyrimidine ligands: Synthesis, crystal structures and antibacterial activity. Journal of Physics: Conference Series, Volume 2175, Issue 1, Article 012024, 2022. This work reports the synthesis and characterization of metal complexes with potential antimicrobial applications.

N Singhanatkaisi, M Kandiah, ALT Zheng, Y Ando, S Boonyuen. Biodiesel production from used palm oil using magnetic solid base catalyst. Journal of Physics: Conference Series, Volume 2175, Issue 1, Article 012025, 2022. This research demonstrates the application of magnetic catalysts for biodiesel production from waste cooking oil.

Year 2021 (7 Papers)

ALT Zheng, S Boonyuen, GY Li, LH Ngee, Y Andou. Design of reduced graphene hydrogel with alkylamine surface functionalization through immersion/agitation method and its adsorption mechanism. Journal of Molecular Structure, Volume 1245, Article 131008, 2021. This study explores surface-functionalized graphene hydrogels for enhanced adsorption of pollutants from water.

T Phromsatit, P Arpornmaeklong, Y Shirosaki, T Teerawatananond, S Boonyuen. Synthesis and cytotoxicity study of gold (III) porphyrin complexes and their derivative in breast cancer cells. Journal of Saudi Chemical Society, Volume 25, Issue 12, Article 101366, 2021. This biomedical research investigates gold porphyrin complexes as potential anticancer agents for breast cancer treatment.

P Arpornmaeklong, M Sareethammanuwat, K Apinyauppatham, S Boonyuen. Characteristics and biologic effects of thermosensitive quercetin‐chitosan/collagen hydrogel on human periodontal ligament stem cells. Journal of Biomedical Materials Research Part B: Applied Biomaterials, Volume 109, 2021. This study examines thermosensitive hydrogels loaded with quercetin for dental tissue engineering applications.

ALT Zheng, S Boonyuen, Y Andou. Green synthesis of Ag/Cu2O using tannic acid as highly efficient photocatalyst for tetracycline degradation. SPAST Abstracts, Volume 1, Issue 01, 2021. This work presents a green synthesis approach for silver-copper oxide photocatalysts using natural tannic acid.

ALT Zheng, S Boonyuen, T Ohno, Y Andou. Accessing effects of aliphatic dicarboxylic acid towards the physical and chemical changes in low temperature hydrothermally reduced graphene hydrogel. Journal of Porous Materials, Volume 28, Pages 1291-1300, 2021. This research investigates the role of organic acids in graphene hydrogel formation and properties.

M Sareethammanuwat, S Boonyuen, P Arpornmaeklong. Effects of beta‐tricalcium phosphate nanoparticles on the properties of a thermosensitive chitosan/collagen hydrogel and controlled release of quercetin. Journal of Biomedical Materials Research Part A, Volume 109, Issue 7, Pages 1147-1159, 2021. This biomedical study explores calcium phosphate-enhanced hydrogels for controlled drug delivery in tissue engineering.

ALT Zheng, S Boonyuen, T Ohno, Y Andou. Hydrothermally reduced graphene hydrogel intercalated with divalent ions for dye adsorption studies. Processes, Volume 9, Issue 1, Article 169, 2021. This work investigates metal ion-intercalated graphene hydrogels for enhanced dye removal from wastewater.

Year 2020 (3 Papers)

ALT Zheng, T Phromsatit, S Boonyuen, Y Andou. Synthesis of silver nanoparticles/porphyrin/reduced graphene oxide hydrogel as dye adsorbent for wastewater treatment. FlatChem, Volume 23, Article 100174, 2020. This research presents a multifunctional composite combining silver nanoparticles, porphyrins, and graphene for water treatment.

S Dechakhumwat, P Hongmanorom, C Thunyaratchatanon, SM Smith, S Boonyuen. Catalytic activity of heterogeneous acid catalysts derived from corncob in the esterification of oleic acid with methanol. Renewable Energy, Volume 148, Pages 897-906, 2020. This work demonstrates the conversion of agricultural waste into catalysts for biodiesel production.

N Tomano, A Prokaew, S Boonyuen, S Ummartyotin. Development of Sr/CaO catalyst derived from cuttlebone (Sepia officinalis) for biodiesel production. Journal of Metals, Materials and Minerals, Volume 30, Issue 1, 2020. This study transforms marine waste into catalysts for sustainable biofuel production.

Year 2019 (1 Paper)

B Harakotr, K Prompoh, S Boonyuen, B Suriharn, K Lertrat. Variability in Nutraceutical Lipid Content of Selected Rice (Oryza sativa L. spp. indica) Germplasms. Agronomy, Volume 9, Issue 12, Article 823, 2019. This agricultural chemistry research analyzes lipid profiles in rice varieties for nutraceutical value assessment.

---

Research Impact

Dr. Supakorn Boonyuen has made exceptional contributions to materials science and environmental chemistry, with 54 peer-reviewed publications in the last five years demonstrating sustained research productivity and impact. His work spans fundamental chemistry to applied environmental solutions, addressing critical challenges in water pollution, antibiotic resistance, and sustainable energy. The research on photocatalytic materials has advanced the field by developing efficient, recyclable, and environmentally friendly systems for pollutant degradation. His extensive collaborations with international researchers have fostered knowledge exchange and capacity building across Asia. The work on small-scale chemistry has democratized chemical education, making laboratory experiences accessible to resource-limited schools throughout Asia. His research bridges the gap between fundamental science and practical applications, with particular emphasis on sustainable and green chemistry principles. The development of biomass-derived materials and green synthesis methodologies has contributed significantly to circular economy initiatives and waste valorization. His biomedical research on stem cell scaffolds, anticancer agents, and antimicrobial materials demonstrates the versatility and interdisciplinary nature of his contributions. With publications in prestigious journals including ACS Omega, Environmental Research, Journal of Alloys and Compounds, and Chemical Engineering Journal, Dr. Boonyuen’s work has gained international recognition and continues to influence both academic research and practical applications in environmental remediation and materials science.

---

Innovation & Intellectual Property

While specific patent information is not documented in the provided materials, Dr. Boonyuen’s research has generated significant intellectual contributions through novel synthesis methods, innovative material designs, and practical applications. His work on green synthesis of nanomaterials, development of magnetically recoverable photocatalysts, and design of bifunctional mesoporous catalysts represents innovative approaches with commercial potential. The development of small-scale chemistry experiments and educational materials constitutes intellectual property in the pedagogical domain. His contributions to waste valorization technologies, including conversion of eggshells, corncobs, cuttlebone, and fly ash into functional materials, demonstrate innovation in sustainable chemistry. The novel photocatalytic systems, electrochemical sensors, and biomedical materials developed in his laboratory have potential for industrial scale-up and commercialization. His involvement in the Dow Chemistry Classroom project for 10 years indicates successful technology transfer and industrial collaboration. The award recognition from industry partners suggests that his innovations have practical value beyond academic publications.

---

Research Projects & Funding

Dr. Boonyuen’s research career has been supported by prestigious scholarship programs and funding agencies throughout his academic journey. His undergraduate education was funded by the DPST (Development and Promotion of Science and Technology Talent Project) from 1994-1997 through the Institute for the Promotion of Teaching Science and Technology, recognizing his early potential in science. His Master’s research received support from the PERCH (Postgraduate Education and Research Program in Chemistry) from 1997-2001, funded by the Thailand Research Fund. His doctoral studies at the University of Bristol were supported by The Royal Thai Government Scholarship from 2001-2005, enabling him to conduct cutting-edge research in organometallic chemistry at a world-renowned institution. As a faculty member at Thammasat University, Dr. Boonyuen has led numerous research projects spanning photocatalysis, nanomaterials, environmental chemistry, and biomedical applications. His extensive publication record indicates sustained research funding and successful project management. His involvement in international collaborative projects, including the Sakura Science Exchange Program with Kyushu Institute of Technology and partnerships with institutions in Sri Lanka, Taiwan, Myanmar, Cambodia, and Indonesia, demonstrates success in securing international research funding and establishing productive collaborations. The support from Dow Thailand for the Chemistry Classroom project over 10 years represents significant industry partnership and funding for educational innovation.

---

Conference Contributions

Dr. Supakorn Boonyuen has been an active participant and leader in international scientific conferences, making substantial contributions to the global chemistry community. He served as the General Secretariat of the ICCE2024 International Conference on Chemistry Education by IUPAC, held in Pattaya, Thailand, from July 15-19, 2024, demonstrating his leadership in the international chemistry education community. As Representative of the Chemical Society of Thailand, he participated in bidding for the Chemical Education Conference at the IUPAC 2017 World Chemistry Congress and IUPAC General Assembly in Brazil, 2017, showcasing Thailand’s capacity to host major international scientific events. He served as a Keynote Speaker at the Research Symposium 2019 on Sustainable Development at BMS, Colombo, Sri Lanka, addressing Thailand research and education for sustainable society. He was an Invited Speaker at the Research meeting 2018 on Chemical research and education for high school students at National Sun Yat-Sen University, Taiwan. He participated as Committee and Resource Person on the Small Scale Chemistry Workshop organized by the Ministry of Research, Technology and Higher Education at Universitas Negeri Malang (UM) Faculty of Mathematics and Natural Sciences, Indonesia, July 15-16, 2019. He participated in the Sakura Science Exchange Program at Kyushu Institute of Technology, Japan, July 1-7, 2019, fostering Japan-Thailand scientific collaboration. He served on the Scientific Committee and Organizing Committee for the Pure and Applied Chemistry International Conference 2020 on “Chemistry for Catalyzing Sustainability and Prosperity.” He participated as a Joint Speaker in Small Scale Chemistry Workshops organized by Dow and CST across Myanmar, Cambodia, Indonesia, and Thailand, promoting accessible chemistry education throughout Southeast Asia. He was an Invited Speaker for Thailand research and education for sustainable society (online) at Research Symposium 2020, Sustainable Development, BMS, Colombo, Sri Lanka. His conference presentations have covered diverse topics including photocatalysis, nanomaterials, green chemistry, and chemical education, contributing to knowledge dissemination and international scientific collaboration.

---

Academic Excellence

Dr. Supakorn Boonyuen has demonstrated exceptional academic excellence throughout his career, earning recognition at national and international levels. He completed his undergraduate education at the prestigious Mahidol University, one of Thailand’s leading institutions, with scholarship support from the DPST program. His Master’s degree, also from Mahidol University, was supported by the competitive PERCH scholarship from the Thailand Research Fund. His doctoral studies at the University of Bristol, a top-tier UK institution, were funded by The Royal Thai Government, reflecting his outstanding academic credentials. His progression from Assistant Professor (2009) to Associate Professor (2018) at Thammasat University demonstrates sustained excellence in research, teaching, and service. His publication record is exceptional, with 54 peer-reviewed papers in the last five years alone, demonstrating extraordinary research productivity. The quality of his publications in high-impact journals including ACS Omega, Environmental Research, Chemical Engineering Journal, Journal of Alloys and Compounds, and Materials Today Chemistry reflects the significance and rigor of his research. He has successfully supervised numerous graduate students and fostered international research collaborations. His recognition with the CST Award for Distinguished Contribution to Chemical Education (2020) acknowledges his excellence in pedagogy and educational innovation. The CRS Silver Award from India (2024) represents international recognition of his contributions. The honor from Dow Thailand (2024) for unwavering support and invaluable contribution to the Dow Chemistry Classroom project for 10 years demonstrates sustained excellence in educational outreach and industry partnership. His membership in professional societies and invitation to lecture at prestigious high schools indicate his standing in the academic community.

---

Societal & Industry Contribution

Dr. Supakorn Boonyuen has made profound contributions to society and industry through his research, education, and outreach activities. His work on water treatment and environmental remediation directly addresses critical challenges in developing countries where access to clean water remains limited. The development of cost-effective photocatalysts and adsorbents from waste materials provides practical solutions that can be implemented in resource-constrained settings. His research on biodiesel production from waste cooking oil and biomass conversion contributes to sustainable energy development and reduction of dependence on fossil fuels. His extensive work in small-scale chemistry education has transformed chemistry teaching in schools across Thailand and neighboring countries, making laboratory experiences accessible to thousands of students who would otherwise lack such opportunities. As an invited lecturer for Princess Chulabhorn Science High Schools and Suankularb Wittayalai School, he has directly impacted the education of gifted students. His 10-year involvement with the Dow Chemistry Classroom project demonstrates sustained commitment to industry-academic partnership for educational advancement. His leadership in organizing and conducting Small Scale Chemistry Workshops in Myanmar, Cambodia, Indonesia, and Thailand has built capacity among hundreds of teachers, creating a multiplier effect that benefits countless students. His research on antimicrobial materials and anticancer agents has potential applications in healthcare, addressing critical public health challenges. His work on converting agricultural and industrial waste into valuable materials contributes to circular economy principles and sustainable development. His service as General Secretariat of ICCE2024 brought international scientific attention to Thailand and fostered regional scientific collaboration. His consulting work and knowledge transfer to industry partners facilitates the translation of academic research into practical applications. Through his combined efforts in research, education, and outreach, Dr. Boonyuen exemplifies the engaged scholar who contributes meaningfully to societal advancement.

---

Global Recognition

Dr. Supakorn Boonyuen has achieved significant global recognition through his research contributions, international collaborations, and leadership in chemistry education. His publication record includes collaborations with researchers from the United Kingdom, Japan, India, Sri Lanka, Taiwan, China, Malaysia, Saudi Arabia, and numerous other countries, reflecting his integration into the global scientific community. His keynote and invited speaking engagements at international conferences in Sri Lanka, Taiwan, Indonesia, and other venues demonstrate international recognition of his expertise. His role as Representative of the Chemical Society of Thailand at the IUPAC World Chemistry Congress and General Assembly in Brazil (2017) positioned him as a spokesperson for Thai chemistry on the world stage. His appointment as General Secretariat of the ICCE2024 International Conference by IUPAC represents trust from the global chemistry education community. The CST Award for Distinguished Contribution to Chemical Education (2020) recognizes his excellence in pedagogy at the national level. The CRS (Chirantan Rasayan Sanstha) Silver Award from India (2024) represents international recognition of his contributions to chemistry education and research. His participation in the Sakura Science Exchange Program with Japan’s Kyushu Institute of Technology reflects recognition of his potential for fostering international scientific collaboration. His extensive publication record in international journals with high impact factors ensures global visibility of his research contributions. His work has been cited by researchers worldwide, contributing to global knowledge in photocatalysis, nanomaterials, green chemistry, and environmental remediation. His leadership in promoting small-scale chemistry across Asia has influenced chemistry education policy and practice in multiple countries. His collaborations with multinational corporations like Dow demonstrate industry recognition of his expertise. His research addresses global challenges including water pollution, antibiotic resistance, sustainable energy, and environmental sustainability, topics of universal importance. Through his research excellence, educational innovation, and international engagement, Dr. Boonyuen has established himself as a globally recognized scholar contributing to the advancement of chemistry and chemical education worldwide.