Dr. Rachid Bouzammit is an accomplished organic chemist specializing in heterocyclic chemistry and drug design. Based in Fes, Morocco, he earned his PhD in Organic Chemistry from Sidi Mohammed Ben Abdellah University in 2024 with highest honors. His research focuses on the synthesis, characterization, and biological evaluation of novel heterocyclic compounds, particularly spiroisoxazolines and chromone-isoxazole hybrids with potential antibacterial, antioxidant, and anti-inflammatory applications. Currently serving as a lecturer at the Faculty of Sciences Dhar El Mahraz, Dr. Bouzammit combines active research with extensive teaching experience across multiple chemistry disciplines. His work bridges synthetic organic chemistry with computational studies and biological applications, contributing to the development of new therapeutic agents and materials science innovations.
Online Profiles
ResearchGate: https://www.researchgate.net/profile/Rachid-Bouzammit
Education
Dr. Bouzammit holds a PhD in Organic Chemistry (2024, Très honorable mention) from Université Sidi Mohammed Ben Abdellah, Faculty of Sciences Dhar El Mahraz, where he conducted research at the Laboratory of Engineering Organometallic, Molecular and Environmental Materials (LIMOME) under Professor Ghali Al Houari’s supervision. His dissertation focused on the synthesis, characterization, and biological evaluation of novel spiroisoxazoline heterocycles and chromone-isoxazole and isoxazoline hybrids. He earned his Master’s degree in Molecular Organic Chemistry (2017) from the same institution, working on tri-azide compound synthesis under Professor Hassane Faraj. His Bachelor’s degree (Licence Fondamentale) in Bio-organic Chemistry (2015) and DEUG in Chemistry (2014) were also completed at USMBA. He obtained his Baccalaureate in Experimental Sciences with Life and Earth Sciences specialization (2012) from Lycée Abdelkrim El Khattabi, Taounate, Morocco.
Research Focus
Dr. Bouzammit’s research centers on the design, synthesis, and biological evaluation of bioactive heterocyclic compounds with therapeutic potential. His primary focus encompasses spiroisoxazoline synthesis, chromone-isoxazole hybrid development, and triazole-isoxazole conjugates targeting antibacterial and anti-inflammatory applications. He employs sophisticated methodologies including 1,3-dipolar cycloaddition reactions, multi-step organic synthesis, and computational chemistry approaches combining DFT calculations, molecular docking, molecular dynamics simulations, and ADMET profiling. His work integrates experimental organic chemistry with in silico drug design, structural elucidation through advanced spectroscopic techniques (NMR, IR, MS, X-ray crystallography), and biological screening for antimicrobial, antioxidant, and anti-corrosion properties. His research contributes to medicinal chemistry, materials science, and green chemistry initiatives.
Experience
Dr. Bouzammit has accumulated extensive experience in organic chemistry research and education since 2017. His academic career includes serving as a lecturer (Vacataire) in the Master’s program for Innovative Materials Chemistry at FSDM (2025/2026), teaching Advanced Organic Chemistry courses and supervising practical work across multiple undergraduate levels including Biology-Chemistry-Geology, Physics-Chemistry, and Materials Chemistry tracks. He has supervised over 100 hours of laboratory practicals annually, mentored four Master’s students to successful thesis defenses (2019-2021), and prepared laboratory facilities for organic chemistry practicals across multiple semesters. His research experience includes a significant Erasmus+ mobility at Babeș-Bolyai University in Cluj-Napoca, Romania (2022-2023), where he collaborated with international researchers. Since 2018, he has conducted doctoral research producing novel heterocyclic compounds, optimizing synthetic protocols, performing structural characterizations, and investigating biological properties under Professor Ghali Al Houari’s direction.
Research Timeline & Research Publications
Dr. Bouzammit’s research trajectory began with his Master’s thesis (2017) on tri-azide compound synthesis and intensified during his doctoral studies (2018-2024). His publication record spans 2021-2025, with ten published peer-reviewed articles in high-impact journals including Scientific Reports, Molecules, Journal of Molecular Structure, Colloids and Surfaces A, BMC Chemistry, and Mediterranean Journal of Chemistry. He has two manuscripts currently under review. His research productivity demonstrates consistent output with multiple first-author publications addressing chromone-isoxazole hybrids, spiroisoxazolines, and triazole-isoxazole conjugates. Publications feature comprehensive characterization including crystal structures, DFT calculations, biological evaluations, and molecular modeling studies. His work has been presented at international conferences through ten oral communications and eight poster presentations spanning venues in Morocco, USA, Turkey, and virtual platforms, earning recognition including best communication prize at the SNSEM 2024 doctoral day.
Research Impact
Dr. Bouzammit’s research demonstrates significant impact in medicinal chemistry and materials science. His work on novel heterocyclic compounds addresses critical challenges in antibacterial resistance, inflammation, and corrosion inhibition. Publications in high-impact journals with rigorous peer review processes ensure wide dissemination to the scientific community. His chromone-isoxazole and triazole-isoxazole hybrids show promising antibacterial activity against pathogenic strains, while anti-inflammatory studies reveal potential therapeutic applications. The integration of computational predictions (ADMET, molecular docking, MD simulations) with experimental validation provides comprehensive drug development frameworks. His corrosion inhibition studies contribute to industrial applications in materials protection. The mentorship of four Master’s students who successfully defended theses demonstrates knowledge transfer and capacity building. His participation in peer review for SPARK journal and membership in research committees reflect recognition by the scientific community. International collaboration through Erasmus+ mobility and co-authorship with Romanian researchers enhances global research networks.
Innovation & Intellectual Property
Dr. Bouzammit has pioneered innovative synthetic methodologies for heterocyclic compound construction, particularly developing regioselective and diastereospecific 1,3-dipolar cycloaddition protocols for spiroisoxazoline and isoxazole synthesis. He has optimized reaction conditions for chromone-isoxazole hybrid formation through various linkage strategies including direct conjugation, ether linkages, and amide connections, creating diverse molecular architectures with tunable biological properties. His integration of computational chemistry with experimental synthesis represents methodological innovation, employing DFT mechanistic studies to understand reaction pathways, using molecular docking to predict biological targets, and applying ADMET profiling for drug-likeness assessment before synthesis. He has developed structure-activity relationship insights for antibacterial and anti-inflammatory activities, contributing to rational drug design principles. His work on corrosion inhibitors demonstrates innovative applications of organic heterocycles in materials science. While specific patents are not mentioned in the CV, his novel compound libraries represent intellectual contributions with potential commercial applications in pharmaceutical and industrial sectors.
Research Projects & Funding
Dr. Bouzammit’s doctoral research (2018-2024) was conducted within the LIMOME laboratory framework at FSDM, focusing on heterocyclic compound synthesis with biological applications. His Erasmus+ mobility grant (March-July 2023) to Babeș-Bolyai University, Romania, represents competitive international funding supporting collaborative research in organic chemistry synthesis and characterization. His involvement in the organization of the 1st International Congress on Materials, Biomaterials, Sciences and Environmental Technologies (May 2024) demonstrates engagement with funded scientific events. As an associate member of LIMOME laboratory since 2025, he contributes to ongoing research programs in organometallic and molecular engineering. His supervision of four Master’s thesis projects indicates involvement in research training programs. The consistent publication record in peer-reviewed journals suggests successful execution of research objectives within institutional frameworks. His teaching responsibilities across undergraduate and graduate programs reflect integration of research outcomes into educational curricula, ensuring knowledge dissemination and student engagement in contemporary research methodologies.
Conference Contributions
Dr. Bouzammit has delivered ten oral communications at prestigious international conferences spanning three continents. Notable presentations include the 13th Annual Academic Research Conference in Alabama, USA (March 2025) on triazole-isoxazole hybrids as antibacterial agents, the 1st International Conference on Materials, Biomaterials and Environmental Sciences (ICMBEST-2024, Fez) where he received the best communication prize at the SNSEM 2024 doctoral day, and the International Symposium on Materials and Environmental Sciences (ISMESH 2024). He has presented at international conferences in Turkey including the International Anatolian Congress on Multidisciplinary Scientific Research (December 2022) and the International Conference on Multidisciplinary Scientific Studies in Istanbul (October 2022). His eight poster presentations demonstrate active participation in scientific dissemination at events such as VAHVISTUS-BIO 2019 and the Pole De Biotechnologie (2018). Conference topics encompass heterocyclic synthesis, antibacterial activity, structural characterization, and biological evaluation, showcasing the breadth of his research contributions to the international scientific community.
Academic Excellence
Dr. Bouzammit’s academic excellence is evidenced by his doctoral degree with “Très honorable” (highest honors) distinction from USMBA in 2024. His selection for the competitive Erasmus+ mobility program to Babeș-Bolyai University, Romania (2022-2023) reflects international recognition of his research potential. He received the best communication prize at the 1ère Journée Doctorale SNSEM 2024, demonstrating excellence in scientific presentation. His comprehensive training includes multiple Web of Science workshops (2020, 2022) covering journal citation reports, highly cited research, and Essential Science Indicators. He completed specialized training on researcher profiles in Publons (2021), literature analysis webinars (2021), and IMIST/CNRST workshops on scientific research, journal selection, and manuscript preparation (2020). His technical proficiency spans advanced analytical techniques including multinuclear NMR (1H, 13C, 2D), mass spectrometry (APCI, HRMS, GCMS), X-ray crystallography, and computational software (ChemBioDraw, MesterNova, Mercury, Mendeley, Zotero). His mastery of bibliographic databases (Scopus, ScienceDirect, Web of Science, Springer) supports rigorous research methodologies.
Societal / Industry Contribution
Dr. Bouzammit contributes significantly to education and community development in Morocco. His extensive teaching portfolio spans undergraduate and graduate levels, including over 400 hours of practical laboratory supervision, tutorial sessions, and course delivery in organic chemistry, thermochemistry, spectroscopy, and computational tools across multiple academic years (2021-2026). He has mentored four Master’s students to successful thesis completions, building research capacity in Morocco’s scientific community. As an associate member of LIMOME laboratory since 2025, he participates in collaborative research addressing societal challenges including antibiotic resistance and materials degradation. His active membership in Association Bab Alilm (Portail de la Science) since 2018 demonstrates commitment to science popularization and student support, including organizing cultural excellence evenings, educational workshops on mind mapping techniques, and international student integration events. He contributed to organizing partnerships between academic institutions and business schools (ENCG-USMBA, 2022), fostering academic-industry connections. His research on corrosion inhibitors addresses industrial needs in materials protection, while antibacterial compound development tackles public health challenges.
Global Recognition
Dr. Bouzammit has achieved international recognition through collaborative research networks spanning Europe, Africa, and North America. His Erasmus+ research stay at Babeș-Bolyai University, Romania (2023) established European collaborations reflected in co-authored publications with Romanian researchers including Professor Luiza Ioana Gaina and Dr. Emese Gal. His publications feature international co-authors from Saudi Arabia (Mohammed M. Alanazi, Hatem A. Abuelizz), India (Somdutt Mujwar), and multiple Moroccan institutions, demonstrating extensive research networks. Conference presentations at venues in the United States (University Research Symposium, Alabama; Annual Academic Research Conference), Turkey (International Anatolian Congress, Istanbul conferences), and Morocco (ICMBEST, ISMESH, SNSEM) showcase global visibility. His research addresses universal challenges including antimicrobial resistance and sustainable materials development, ensuring international relevance. Publications in internationally indexed journals with global readership (Scientific Reports, Molecules, BMC Chemistry, Colloids and Surfaces A) ensure worldwide dissemination. His ResearchGate profile facilitates international scientific networking and collaboration opportunities.
Top Noted Publication
Bouzammit, R., El Hachlafi, N., El Fadili, M., El khabchi, M., Kanzouai, Y., Salghi, R., Alanazi, M.M., Chalkha, M., Pop, A.M., Gal, E., Gaina, L.I., & Al Houari, G. (2025). Synthesis, Crystal Structure, DFT Calculations, In-vitro and In-silico Studies of Novel Chromone-Isoxazoline Conjugates as Antibacterial and Anti-Inflammatory agents. Scientific Reports, 15, 31103. https://doi.org/10.1038/s41598-025-11182-9
This flagship publication in Scientific Reports (Nature Portfolio, Impact Factor ~4.0) represents Dr. Bouzammit’s most comprehensive work, integrating experimental synthesis with computational predictions and dual biological evaluations. The study presents novel chromone-isoxazoline conjugates characterized through X-ray crystallography, validated through DFT calculations for electronic properties and reaction mechanisms, and evaluated for antibacterial activity against pathogenic bacteria and anti-inflammatory potential. The multidisciplinary approach combining organic synthesis, structural biology, computational chemistry, and pharmacological screening exemplifies modern drug discovery methodologies. International collaboration with Romanian and Saudi Arabian researchers demonstrates global research impact. This publication synthesizes core themes from his doctoral research, advancing heterocyclic chemistry while addressing critical therapeutic needs in infectious diseases and inflammation management.
Publications
Peer-Reviewed Journal Articles (Published)
P-1. Bouzammit, R., El Hachlafi, N., El Fadili, M., El khabchi, M., Kanzouai, Y., Salghi, R., Alanazi, M.M., Chalkha, M., Pop, A.M., Gal, E., Gaina, L.I., & Al Houari, G. (2025). Synthesis, Crystal Structure, DFT Calculations, In-vitro and In-silico Studies of Novel Chromone-Isoxazoline Conjugates as Antibacterial and Anti-Inflammatory agents. Scientific Reports, 15, 31103. https://doi.org/10.1038/s41598-025-11182-9
P-2. Ech-chihbi, E., Bouzammit, R., Salim, R., Er-rajy, M., Salghi, R., Azgaou, K., Ouakki, M., Azzaoui, K., Ettahiri, W., Alanazi, A., Al Houari, G., & Hammouti, B. (2025). Chromone-isoxazole derivatives as corrosion inhibitors for mild steel in 1 M HCl solution: Experimental, DFT and DFTB approaches. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 720, 137169. https://doi.org/10.1016/j.colsurfa.2025.137169
P-3. Kanzouai, Y., Bouribab, A., El Moussaoui, A., Touhtouh, J., Laghmari, M., Bouzammit, R., Aflak, N., Boujdi, K., Chtita, S., Benali, T., Bahsis, L., Bakhouch, M., Chalkha, M., Akhazzane, M., Hammani, K., & Al Houari, G. (2024). Design, Synthesis and Characterization of New Amide-Linked Chromone-Isoxazole Hybrids: In Vitro Anti-Bacterial and Antioxidant Evaluation, DFT Calculations, ADMET Profiling, Docking and Molecular dynamics simulation. Journal of Molecular Structure, 140972. https://doi.org/10.1016/j.molstruc.2024.140972
P-4. El fadili, M., Er-rajy, M., Mujwar, S., Ajala, A., Bouzammit, R., Kara, M., Abuelizz, H.A., Er-rahmani, S., & Elhallaoui, M. (2024). In silico insights into the design of novel NR2B-selective NMDA receptor antagonists: QSAR modeling, ADME-toxicity predictions, molecular docking, and molecular dynamics investigations. BMC Chemistry, 18, 142. https://doi.org/10.1186/s13065-024-01248-6
P-5. Bouzammit, R., Belchkar, S., El fadili, M., Kanzouai, Y., Mujwar, S., Alanazi, M.M., Chalkha, M., Nakkabi, A., Bakhouch, M., Gal, E., Gaina, L.I., & Al houari, G. (2024). New Triazole-Isoxazole Hybrids as Antibacterial Agents: Design, Synthesis, Characterization, In Vitro, and In Silico Studies. Molecules, 29(11), 2510. https://doi.org/10.3390/molecules29112510
P-6. Bouzammit, R., Belchkar, S., ElFadili, M., Kanzouai, Y., Aflak, N., Chalkha, M., Bahsis, L., Nakkabi, A., Bakhouch, M., Gal, E., Gaina, L.I., & AL Houari, G. (2024). Synthesis, Characterization, DFT mechanistic study, Antibacterial Activity, Molecular modeling, and ADMET properties of novel chromone-isoxazole hybrids. Journal of Molecular Structure, 1314, 138770. https://doi.org/10.1016/j.molstruc.2024.138770
P-7. Bouzammit, R., Lakkab, I., Elfadili, M., Kanzouai, Y., Chalkha, M., Nakkabi, A., Elbali, B., Obbade, S., Jouffret, L., Lachkar, M., & Al Houari, G. (2024). Synthesis, crystal structure, antioxidant activity and molecular docking studies of 2-(1-(3-methyl-1-oxo-1,2,3,4-tetrahydronaphthalen-2-yl)ethyl)malononitrile. Journal of Molecular Structure, 1312(Part 1), 138582. https://doi.org/10.1016/j.molstruc.2024.138582
P-8. Kanzouai, Y., Laghmari, M., Yamari, I., Bouzammit, R., Bahsis, L., Benali, T., Chtita, S., Bakhouch, M., Akhazzane, M., el Kouali, M., Hammani, K., & Al Houari, G. (2024). Chromone-isoxazole hybrids molecules: synthesis, spectroscopic, MEDT, ELF, antibacterial, ADME-Tox, molecular docking and MD simulation investigations. Journal of Biomolecular Structure and Dynamics, 42(12). https://doi.org/10.1080/07391102.2023.2266022
P-9. Kanzouai, Y., Chalkha, M., Hadni, H., Laghmari, M., Bouzammit, R., Nakkabi, A., Benali, T., Tüzün, B., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2023). Design, synthesis, in-vitro and in-silico studies of chromone-isoxazoline conjugates as anti-bacterial agents. Journal of Molecular Structure, 1293, 136205. https://doi.org/10.1016/j.molstruc.2023.136205
P-10. Mahfoud, A., Kerbal, A., Nakkabi, A., El Yazidi, M., Akhazzane, M., Bakhouch, M., Kanzouai, Y., Bouzammit, R., & Al Houari, G. (2021). Synthesis of new spiroheterocycles-fused isoxazoline from 2-arylidenes-3-phenyl-1-indanones through a regio-and diastereospecific 1,3-dipolar cycloaddition. Mediterranean Journal of Chemistry, 11(2), 194-200. https://doi.org/10.13171/mjc02105141076gh
Manuscripts Under Review
P-11. Salim, R., Bouzammit, R., Ech-chihbi, E., Er-rajy, M., Kanzouai, Y., Salghi, R., Azzaoui, K., Al Houari, G., & Hammouti, B. Discovering the Corrosion Resistance of Carbon Steel Using Chromene Derivative as Corrosion Inhibitors. Surfaces and Interfaces (submitted).
P-12. Bouzammit, R., Ait Assou, S., Er-rajy, M., Aflak, N., Bahsis, L., Chalkha, M., El Hassouni, M., Ben Hadda, T., Lachkar, M., & Al Houari, G. Synthesis, Structural Elucidation, Antibacterial Activity, Molecular Docking and Theoretical Investigations of New Spiro-Isoxazolines. Journal of Biomolecular Structure and Dynamics (submitted).
Thesis
Bouzammit, R. (2024). Synthèse, caractérisation et évaluation biologique de nouveaux hétérocycles spiroisoxazoliniques et d’hybrides de type chromone-isoxazole et isoxazoline [Doctoral dissertation, Université Sidi Mohammed Ben Abdellah]. LIMOME Laboratory, Faculty of Sciences Dhar El Mahraz, Fes, Morocco. Mention: Très honorable.
Bouzammit, R. (2017). Synthèse du composé tri-azide « N-(1,3-diazido-2-(azidométhyl)propan-2-yl)-4-méthylbenzènesulfonamide » [Master’s thesis, Université Sidi Mohamed Ben Abdellah]. Faculty of Sciences Dhar El Mahraz, Fes, Morocco.
Conference Presentations
Oral Communications
CO-1. Bouzammit, R., Belchkar, S., Kanzouai, Y., Chalkha, M., Nakkabi, A., & Al Houari, G. (2025, March 11-12). Novel Triazole-Isoxazole Hybrids as Antibacterial Agents: Design, Synthesis, Characterization. 13th Annual Academic Research Conference (ARC), Livingston, Alabama, USA (Virtual and in-person).
CO-2. Bouzammit, R., Kanzouai, Y., Chalkha, M., Nakkabi, A., El Yazidi, M., & Al Houari, G. (2024, May 29-31). Synthèse d’une nouvelle génération d’isoxazoles hybrides et étude de leur activité antibactérienne. 1st International Conference on Materials, Biomaterials and Environmental Sciences And Technology (ICMBEST-2024), Fez, Morocco.
CO-3. Kanzouai, Y., Bouzammit, R., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2024, May 29-31). Synthèse, caractérisation, étude cristallographique et activité biologique de quelques dérivés du 7-hydrox-4H-chromone-2-carboxylate de méthyle. 1st International Conference on Materials, Biomaterials & Environmental Sciences and Technology (ICMBEST-2024), Fez, Morocco.
CO-4. Kanzouai, Y., Bouzammit, R., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2024, May 7-8). Novel Chromone-Isoxazoline Ether-Linked Conjugates: Synthesis, Structural Analysis and In Vitro Evaluation. International Symposium on Materials, Environmental Sciences, and Hygiene (ISMESH 2024), EST-FES, Morocco.
CO-5. Bouzammit, R., Kanzouai, Y., Chalkha, M., Bakhouch, M., Nakkabi, A., El Yazidi, M., & Al Houari, G. (2024, April 27). Synthèse et caractérisation de nouvelles séries de molécules hybrides de type chromone-isoxazole. 1ère Journée Doctorale Substances Naturelles, Santé, Environnement et Modélisation (SNSEM 2024), FSDM-USMBA, Fes, Morocco. [Best Communication Prize]
CO-6. Kanzouai, Y., Bouzammit, R., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2024, April 27). Nouveaux hybrides chromone-isoxazole: Conception, synthèse, caractérisation structurelle et évaluation biologique. 1ère Journée Doctorale Substance Naturelles, Santé, Environnement et Modélisation (SNSEM 2024), FSDM-USMBA, Fes, Morocco.
CO-7. Bouzammit, R., Kanzouai, Y., Chalkha, M., Bakhouch, M., Nakkabi, A., El Yazidi, M., & Al Houari, G. (2024, March 4-5). Synthesis and Characterization of New Series of Chromone-Isoxazoline Hybrid Molecules. 12th Annual University Research Symposium (URS), Alabama, USA (Virtual and in-person).
CO-8. Bouzammit, R., Mahfoud, A., Nakkabi, A., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2022, December 28). Synthesis and Characterization of New Heterocyclic Compounds by Cycloaddition Reaction from (E)-2-Ethylidene-3-Methyl-3,4-Dihydronaphthalen-1(2H)-One. International Anatolian Congress on Multidisciplinary Scientific Research, Kayseri, Turkey.
CO-9. Kanzouai, Y., Bouzammit, R., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2022, December 19-20). Synthèse et caractérisation de nouvelles bases de Schiff à partir de 3-formyl chromones. 6th International Conference on Materials & Environment (ICME6-2022), Faculty of Sciences, Meknes, Morocco.
CO-10. Bouzammit, R., Kanzouai, Y., Mahfoud, A., Nakkabi, A., El Yazidi, M., & Al Houari, G. (2022, October 17-18). Synthesis of New Heterocyclic Compounds Based on (E)-2-Methyl-3-Arylidene-Chroman-4-Ones. International Conference on Multidisciplinary Scientific Studies, Istanbul, Turkey.
Poster Presentations
CA-1. Bouzammit, R., Kanzouai, Y., Chalkha, M., Nakkabi, A., El Yazidi, M., & Al Houari, G. (2024, May 29-31). Synthèse et caractérisation d’une nouvelle génération d’isoxazolines hybrides dérivées de la chromone. 1st International Conference on Materials, Biomaterials & Environmental Sciences And Technology (ICMBEST-2024), Fez, Morocco.
CA-2. Kanzouai, Y., Bouzammit, R., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2024, May 29-31). Nouvelle série d’hybrides chromone-isoxazole liée par un amide linker: Processus d’élaboration, synthèse, caractérisation et études biologiques. 1st International Conference on Materials, Biomaterials & Environmental Sciences and Technology (ICMBEST-2024), Fez, Morocco.
CA-3. Bouzammit, R., Kanzouai, Y., Chalkha, M., Bakhouch, M., Nakkabi, A., El Yazidi, M., & Al Houari, G. (2024, April 27). Synthèse et caractérisation de nouvelles séries d’isoxazolines hybrides à base de chromones. 1ère Journée Doctorale Substances Naturelles, Santé, Environnement & Modélisation (SNSEM 2024), FSDM-USMBA, Fes, Morocco.
CA-4. Kanzouai, Y., Bouzammit, R., Akhazzane, M., El Yazidi, M., & Al Houari, G. (2024, April 27). Design, synthèse et caractérisation de quelques chromone-2-carboxamides dérivés du chromone-2-carboxylate de méthyle et de l’acide chromone-2-carboxylique. 1ère Journée Doctorale Substance Naturelles, Santé, Environnement Et Modélisation (SNSEM 2024), FSDM-USMBA, Fes, Morocco.
CA-5. Bouzammit, R., Kanzouai, Y., Bakhouch, M., Daoudi, M., El Yazidi, M., & Al Houari, G. (2020, December 25-26). Synthesis of New Spiroisoxazolinic Compounds from 2 Ethylidene-3-Methyl-3,4-Dihydronaphthalene-1(2H)-One. Journées Scientifiques Internationales « Modélisation Moléculaire : Enjeux D’application à la Lutte Contre les Maladies Emergentes », Faculty of Sciences Ben M’sik, Casablanca, Morocco.
CA-6. Kanzouai, Y., Bouzammit, R., Akhazzane, M., Daoudi, M., El Yazidi, M., & Al Houari, G. (2019, April 15-16). 1,3-Dipolar Cycloaddition as a Versatile Tools Towards Spiroisoxazolines. International Colloquium: Valorization of Natural and Synthetic Biomolecules in Novel Drug-Vector Nanostructures (VAHVISTUS-BIO 2019), FSDM, Fez, Morocco.
CA-7. Bouzammit, R., Kanzouai, Y., Mahfoud, A., Chalkha, M., Bakhouch, M., Akhazzane, M., Daoudi, M., El Yazidi, M., & Al Houari, G. (2019, April 15-16). Design and Synthesis of New Spiroheterocyclic Compounds Containing 2-Isoxazoline Frameworks. International Colloquium: Valorization of Natural and Synthetic Biomolecules in Novel Drug-Vector Nanostructures (VAHVISTUS-BIO 2019),