Waldo Ullah | Biochemical Pharmacology | Best Researcher Award

Posted on 23/05/2025 by chemical Scientist

Prof. Dr. Waldo Ullah | Biochemical Pharmacology | Best Researcher Award

Assistant professor at Pontifical Catholic University of Valparaíso, Chile.

🔬 Short Biography 🌿💊📚

Dr. Waldo Acevedo Castillo 🧑‍🔬 is an Associate Professor at the Institute of Chemistry, Faculty of Science, Pontificia Universidad Católica de Valparaíso 🇨🇱. With a Ph.D. and M.Sc. in Engineering Sciences from Pontificia Universidad Católica de Chile 🎓, Dr. Acevedo has established himself as a pioneer in food chemistry and structural bioinformatics 🧪. His research focuses on the molecular characterization of organoleptic food additives 🍬 and rational drug design 💊. He has published extensively in high-impact journals and contributed to multiple interdisciplinary projects in biochemistry and pharmacology. Passionate about teaching and mentoring 👨‍🏫, he guides undergraduate and graduate students in bioinformatics and biochemical research. Dr. Acevedo also plays an active role in academic peer review, editorial boards, and science outreach 🌍. His career blends deep scientific inquiry with educational innovation and societal engagement, making him a dynamic force in the global chemistry community 🌐.

PROFILE

SCOPUS

ORCID

🔍 Summary of Suitability:

Dr. Waldo Acevedo Castillo exemplifies the qualities of an outstanding researcher, with a strong foundation in computational bioinformatics, food chemistry, and biochemical pharmacology. As an Associate Professor at Pontificia Universidad Católica de Valparaíso, he has consistently demonstrated academic excellence, interdisciplinary innovation, and impactful research. His academic background, scientific publications, mentorship, and leadership roles underscore a career devoted to advancing molecular science and contributing to global health and nutrition challenges.

📘 Education & Experience

🎓 Ph.D. in Engineering Sciences, Pontificia Universidad Católica de Chile (2017)
🎓 M.Sc. in Engineering, Pontificia Universidad Católica de Chile (2016)
📚 Diploma in University Teaching, PUCV (2019)
📚 Diploma in Virtual University Training, PUCV (2020)
💻 Graduate in Bioinformatics, Universidad de Talca (2009)
👨‍🏫 Associate Professor, Institute of Chemistry, PUCV
🧬 Bioinformatics Engineer, Universidad de Talca (2009)
📖 Scientific Reviewer, multiple journals including Food Chemistry and Scientific Reports
🔬 Editorial Board Member, Pharmaceutics and Drug Innovation, Journal of Drug Design and Research

Professional Development 🚀📖

Dr. Waldo Acevedo continuously enhances his professional skills through diverse academic and research activities 📈. He has completed numerous training programs in virtual education, AI in teaching, curriculum development, and project formulation at PUCV 🎓. His involvement in interdisciplinary projects spans vertical farming 🌿, enzymatic hydrolysis, and drug formulation for dermatological conditions 🧴. As a mentor, he has supervised numerous undergraduate and postgraduate theses 🧑‍🎓. Dr. Acevedo actively contributes to international research communities as a reviewer and editorial board member 📰. He is also a dedicated science communicator, promoting STEM outreach through the Explora Academies of Research and School Innovation 🧠. His collaborative spirit has led to roles in national research grants and innovation-driven projects 💡. His work bridges cutting-edge science, education, and public engagement, positioning him as a multifaceted professional in molecular chemistry, bioinformatics, and pharmacological sciences 🌍.

Research Focus 🔍🤖

Dr. Waldo Acevedo’s research centers around Food Chemistry, Biochemical Pharmacology, and Structural Bioinformatics 🔍. He investigates the molecular interactions of food additives, especially sweeteners, with human taste receptors 🍭. His research applies computational tools like molecular docking and dynamics to understand taste perception and improve food quality. Additionally, Dr. Acevedo explores the rational design of anticancer and antimicrobial agents 🧬, targeting enzymes and proteins like SIRT2, EGFR, COX-2, and bitter taste receptors. He has participated in drug discovery efforts and virtual screening campaigns that integrate in silico and in vitro approaches 💊. His interdisciplinary projects have included work on skin microbiome modulation, environmental toxicology, and salmon immunology 🐟. With a strong computational background, he brings innovation to molecular modeling, offering insights into bioactive compound mechanisms and receptor-ligand interactions 🔬. His research contributes significantly to both health and food sciences 🌿.

Awards and Honors 🏆🎖️

🧑‍⚖️ Peer Evaluator, CNA-Chile Postgraduate Area (2024–Present)
🧠 Advisory Committee Member, Explora Academies of Research and School Innovation (2024–Present)
🧬 Review Editor, Frontiers in Genome Editing (2024–Present)
📝 Editorial Board Member, Pharmaceutics and Drug Innovation & Journal of Drug Design and Research (2023–Present)
🌐 Chief of Outreach, Institute of Chemistry, PUCV (2023–Present)
🧪 Member, Society of Biochemistry and Molecular Biology of Chile (SBBMCh) (2022–Present)
📚 Board Collaborator, Doctorate Program in Chemistry, PUCV (2018–Present)
🏆 Best Graduate Award, Universidad de Talca (2009)
🌟 Stimulus to Effort Award, Gabriel & Mary Mustakis Foundation (1999)
🗣️ CONICYT Doctoral Scholarship, Chile (2013–2016)
🇬🇧 CORFO English Scholarship, for Global Services Industry (2010)

Publications & Citations 📚

Golcienė, B., Kavaliauskas, P., Acevedo, W., et al. (2025).
Identification of 3-[(4-Acetylphenyl)(4-Phenylthiazol-2-Yl)Amino]Propanoic Acid Derivatives as Promising Anticancer Candidates Targeting SIRT2 and EGFR.
Pharmaceuticals, 18(5). https://doi.org/10.3390/ph18050733
Kavaliauskas, P., Acevedo, W., et al. (2025).
3,3′-((3-Hydroxyphenyl)azanediyl)dipropionic Acid Derivatives Against Drug-Resistant Pathogens and Cancer.
Pathogens, 14(5), 484. https://doi.org/10.3390/pathogens14050484
Maldonado, J., Oliva, A., Guzmán, L., Molinari, A., Acevedo, W. (2024).
Synthesis and Anticancer Activity of Hydroquinone-Chalcone-Pyrazoline Hybrids.
International Journal of Molecular Sciences, 25, 7281. https://doi.org/10.3390/ijms25137281
Kavaliauskas, P., Acevedo, W., et al. (2024).
Bis(thiazol-5-yl)phenylmethane Derivatives Against MDR Staphylococcus aureus.
PLOS ONE, 19(3), e0300380. https://doi.org/10.1371/journal.pone.0300380
Maldonado, J., Oliva, A., Molinari, A., Acevedo, W. (2023).
Naphthohydroquinone-Derived Chalcones as Anticancer Agents.
Molecules, 28, 7172. https://doi.org/10.3390/molecules28207172
Acevedo, W., Morán-Figueroa, R., Vargas-Chacoff, L., Morera, F. J., Pontigo, J. P. (2023).
NLRP3 Inflammasome in Salmo salar: Structural and Transcriptomic Insights.
International Journal of Molecular Sciences, 24, 14556. https://doi.org/10.3390/ijms241914556
Maldonado, J., Acevedo, W., et al. (2022).
Naphthoisoxazolequinone Carboxamides as Antitumor Agents.
Polycyclic Aromatic Compounds, 42(4), 1–24. https://doi.org/10.1080/10406638.2022.2095410
Kavaliauskas, P., Acevedo, W., et al. (2022).
Naphthoquinone Derivatives Targeting COX-2.
Pharmaceuticals, 15, 541. https://doi.org/10.3390/ph15050541
Balada, C., Castro, M., Fassio, C., Zamora, A., Marchant, M. J., Acevedo, W., Guzmán, L. (2021).
Genetic Diversity of Curcuma longa from Rapa Nui.
Saudi Journal of Biological Sciences, 28, 707–716. https://doi.org/10.1016/j.sjbs.2020.10.062
Acevedo, W., Cañón, P., Gómez, F., Huerta, J., Aguayo, D., Agosin, E. (2020).
L-Malate Protonation and Malolactic Enzyme Activity in Oenococcus oeni.
Molecules, 25(15), 3431–3447. https://doi.org/10.3390/molecules25153431

🔍 Conclusion:

Dr. Waldo Acevedo Castillo stands out as a multidisciplinary researcher whose work bridges computational biology, food sciences, and pharmacology. His contributions have real-world relevance—from drug development to food safety—and his dedication to mentoring and collaborative science magnifies his impact. These attributes align perfectly with the ethos of the Best Researcher Award, making him a strong and deserving candidate for this prestigious recognition.

Eduardo González-Zamora | Multicomponent Reactions | Best Researcher Award

Posted on 24/04/202524/04/2025 by chemical Scientist

Prof. Dr. Eduardo González-Zamora | Multicomponent Reactions | Best Researcher Award

Professor at Universidad Autónoma Metropolitana, campus Iztapalapa , Mexico.

Dr. Eduardo González-Zamora 👨‍🔬 is a full professor at Universidad Autónoma Metropolitana-Iztapalapa (UAM-I) 🇲🇽. With a passion for chemistry 🧪, he earned his MSc from UAM-I in 1988 🎓. He completed his PhD in 1998 at Paris XI University 🇫🇷, under Prof. R. Beugelmans. He further enriched his experience with postdoctoral roles in UNAM 🇲🇽 and CNRS 🇫🇷, and served as a visiting professor at UCLA 🇺🇸 in 2011. His scientific journey is driven by innovation in polyheterocycle synthesis, peptide and total synthesis, and MOF chemistry 🔬. His global academic path reflects a commitment to excellence 🌍.

PROFILE

ORCID

GOOGLE SCHOLAR

🔍 Summary of Suitability:

Dr. Eduardo González-Zamora exemplifies academic excellence, innovation, and international collaboration in the field of organic chemistry 🧪. His journey spans over three decades of impactful research, teaching, and mentorship. With advanced degrees from prestigious institutions in Mexico 🇲🇽 and France 🇫🇷, and postdoctoral research in top-tier global labs—including CNRS and UCLA 🇺🇸—he has developed a strong international presence and research footprint. His role as a full professor at UAM-I further highlights his leadership in the scientific community.

🎓 Education & Experience

🎓 MSc in Chemistry, Universidad Autónoma Metropolitana-Iztapalapa (UAM-I), 1988
🎓 PhD in Chemistry, Paris XI University, France, 1998
🧪 Postdoc at Instituto de Química, UNAM, Mexico (under Prof. R. Cruz)
🔬 Postdoc at Institut de Chimie des Substances Naturelles, CNRS, France (with Prof. J. Zhu)
👨‍🏫 Visiting Professor, UCLA (M.A. Garcia-Garibay’s group), USA, 2011
👨‍🔬 Full Professor, Department of Chemistry, UAM-I, Mexico

Professional Development 🚀📖

Dr. González-Zamora’s professional development reflects a dynamic trajectory across prestigious global institutions 🌐. After solid foundations in Mexico 🇲🇽, he expanded his research horizons in France 🇫🇷 through advanced studies and postdoctoral work, gaining invaluable experience in synthetic chemistry 🧬. His role at UCLA 🇺🇸 as a visiting professor further enriched his international profile. As a full professor at UAM-I, he actively mentors students, leads innovative projects, and contributes to academic and scientific communities 📚. His development is marked by continual learning, collaboration, and leadership in research 🔍, teaching 📖, and international scientific networking 🤝.

Research Focus 🔍🤖

Dr. González-Zamora’s research is centered on organic synthesis with a focus on constructing complex molecular architectures 🧪. He specializes in the synthesis of polyheterocycles via multicomponent reactions (MCRs) ⚗️, contributing significantly to advances in heterocyclic chemistry. His work also spans peptide synthesis 🧬 and total synthesis strategies, aiming at efficient and innovative molecular assembly. Furthermore, he explores Metal-Organic Frameworks (MOFs) for potential applications in catalysis and material science 🧱. His research is driven by curiosity, creativity, and interdisciplinary integration, making significant impacts in both theoretical understanding and practical applications 🔍.

Publications & Citations 📚

Synthesis of polyheterocycles via multicomponent reactions, IA Ibarra, A Islas-Jácome, E González-Zamora, Organic & Biomolecular Chemistry 16 (9), 1402-1418, 243, 2018
MOF Materials for the Capture of Highly Toxic H₂S and SO₂, E Martínez-Ahumada, A López-Olvera, V Jancik, JE Sánchez-Bautista, …, Organometallics 39 (7), 883-915, 168, 2020
Structure stability of HKUST-1 towards water and ethanol and their effect on its CO₂ capture properties, JR Álvarez, E Sánchez-González, E Pérez, E Schneider-Revueltas, …, Dalton Transactions 46 (28), 9192-9200, 133, 2017
CO₂ capture under humid conditions in metal–organic frameworks, E González-Zamora, IA Ibarra, Materials Chemistry Frontiers 1 (8), 1471-1484, 122, 2017
Highly reversible sorption of H₂S and CO₂ by an environmentally friendly Mg-based MOF, E Sánchez-González, PGM Mileo, M Sagastuy-Breña, JR Álvarez, …, Journal of Materials Chemistry A 6 (35), 16900-16909, 100, 2018
High and energy-efficient reversible SO₂ uptake by a robust Sc(III)-based MOF, JA Zárate, E Sánchez-González, DR Williams, E González-Zamora, …, Journal of Materials Chemistry A 7 (26), 15580-15584, 86, 2019
Catalytic activity of HKUST-1 in the oxidation of trans-ferulic acid to vanillin, R Yepez, S García, P Schachat, M Sánchez-Sánchez, …, New Journal of Chemistry 39 (7), 5112-5115, 86, 2015
Greener synthesis of Cu-MOF-74 and its catalytic use for the generation of vanillin, JG Flores, E Sánchez-González, A Gutiérrez-Alejandre, J Aguilar-Pliego, …, Dalton Transactions 47 (13), 4639-4645, 85, 2018
Wilkinson’s catalyst catalyzed selective hydrogenation of olefin in the presence of an aromatic nitro function: a remarkable solvent effect, A Jourdant, E González-Zamora, J Zhu, The Journal of Organic Chemistry 67 (9), 3163-3164, 83, 2002
The Ugi three-component and its variants, JC Flores-Reyes, A Islas-Jácome, E González-Zamora, Organic Chemistry Frontiers 8 (19), 5460-5515, 81, 2021
Outstanding reversible H₂S capture by an Al(III)-based MOF, JA Zárate, E Sánchez-González, T Jurado-Vázquez, …, Chemical Communications 55 (21), 3049-3052, 77, 2019
Multicomponent domino process to oxa-bridged polyheterocycles and pyrrolopyridines, structural diversity derived from work-up procedure, R Gámez-Montaño, E González-Zamora, P Potier, J Zhu, Tetrahedron 58 (32), 6351-6358, 74, 2002

🔍 Conclusion:

Dr. Eduardo González-Zamora’s consistent, high-impact contributions to synthetic and materials chemistry make him an exceptional choice for the Best Researcher Award. His innovative research, mentorship, and global collaborations have left a profound mark on the field. His career is a testament to academic rigor, scientific curiosity, and international cooperation—core values that embody what this award stands for. 🥇

Maria TIRITAN | Organic Chemistry | Best Paper Award

Posted on 17/04/202517/04/2025 by chemical Scientist

Prof. Maria TIRITAN | Organic Chemistry | Best Paper Award

Professor at Faculdade de Farmácia da Universidade do Porto in Portugal.

Maria Elizabeth Tiritan 🎓🔬 is a distinguished researcher at CIIMAR and an Assistant Professor of Organic Chemistry and Pharmaceutical Sciences at the University of Porto 🇵🇹. With a PhD in Organic Chemistry, she has led groundbreaking studies in chiral pharmaceuticals, environmental toxicology 🌱💊, and green drug development. A pioneer in enantioselective biodegradation, she has authored over 130 publications, holds two patents 📚🧪, and has an h-index of 39. Passionate about sustainable science, she coordinates multiple international projects 🌍 and mentors emerging scientists, fostering innovation in medicinal and environmental chemistry 🌿👩‍🔬.

Professional Profile

GOOGLE SCHOLAR

ORCID

SCOPUS

🔍 Summary of Suitability:

This paper showcases Maria Elizabeth Tiritan’s deep expertise in organic and medicinal chemistry, highlighting the importance of chirality in flavonoids—a class of compounds with significant pharmacological activity 💊🌿. The work offers a comprehensive overview of stereoselective synthesis methods, combining fundamental chemistry with applied biomedical relevance. It underscores how stereochemistry affects biological function, paving the way for safer and more effective drug candidates 🔍🔄.

🎓 Education

🧪 PhD in Organic Chemistry – University of Porto, Portugal (1996)
Thesis: Enantiomeric Resolution of Chiral Sulfoxides by HPLC
📚 Postdoctoral Research – Organic Chemistry (1997–2001)
Faculty of Pharmacy, University of Porto
🌍 Visiting Researcher – University of Warwick, UK (1992–1995)
Under WHO and CNPq (Brazil) programs
🎓 Degree in Chemistry – Brazil (before 1992)

💼 Experience

👩‍🏫 Assistant Professor – Faculty of Pharmacy, University of Porto (2020–Present)
🧫 Researcher – CIIMAR, University of Porto (2015–2018, 2022–Present)
🧬 Team Leader – Drug Research Line at IINFACTS (2018–2021)
🌱 Coordinator – Environmental Research Unit, IINFACTS (2013–2017)
🧪 Group Leader – Chemical & Pharmaceutical Sciences at CESPU (2007–2012)
🧑‍🔬 Postdoctoral Fellow – Faculty of Pharmacy, University of Porto (1997–2001)
🌐 Research Collaborator – Multiple international and national projects focused on chiral drugs, environmental pollutants, and green chemistry

Professional Development 🚀📖

Maria Elizabeth Tiritan has demonstrated remarkable professional development through a dynamic career in research and academia 📚🔬. From her early work as a visiting researcher at the University of Warwick 🌍 to her postdoctoral studies in organic chemistry at the University of Porto 🧪, she has steadily advanced as a leading scientist in medicinal and environmental chemistry 🌿💊. She became a group leader, team coordinator, and principal investigator on several innovative projects, particularly in green pharmaceuticals and enantioselective analysis 🔄🌱. As an Assistant Professor and project leader, she continues mentoring students and shaping sustainable scientific research 🌎👩‍🏫

Research Focus 🔍🤖

Maria Elizabeth Tiritan’s research focuses on Organic Chemistry, Medicinal Chemistry, and Environmental Sciences 🧪💊🌱. Her work is centered on chirality, enantioselective analysis, and the development of eco-friendly pharmaceuticals 🌍🔄. She investigates how chiral drugs behave in biological and environmental systems, aiming to design safer, biodegradable compounds ♻️🧬. A key part of her research also includes separating enantiomers using liquid chromatography and membranes 🔬💡. Her studies contribute to both public health and environmental protection, linking chemistry with sustainable development goals 🌿🌐. Through innovation and green chemistry, she leads efforts to reduce pharmaceutical pollution in ecosystems 🌊⚗️.

Awards and Honors 🏆🎖️

🧠 Principal Investigator of 8 funded projects at CESPU – Recognized leadership in innovative pharmaceutical and environmental research 🎯💊
📘 Editor & Author of major scientific books and chapters – Including Chiral Separations and Stereochemical Elucidation published by Wiley 📚✍️
🔬 Reviewer & Committee Member – Evaluator for international research fellowships and grant applications, including ERC Starting Grant 🧪🌍
💼 Coordinator of Sustainable Development Goals Working Group at FFUP since 2021 – For advancing eco-conscious research goals 🌿🧭
📈 131 publications with 4019 citations and an h-index of 39 – Recognition for impactful scientific contributions 📊🏅

Publications & Citations 📚

Organic Chemistry – LG Wade 📘 Pearson Education India, 2008 – 1718 citations
Performance of aerobic granular sludge… – CL Amorim et al. 💊 Water Research, 2014 – 257 citations
Biodegradation of ofloxacin, norfloxacin, and ciprofloxacin… – CL Amorim et al. 🧪 Applied Microbiology and Biotechnology, 2014 – 221 citations
Monitoring of the 17 EU Watch List contaminants… – JCG Sousa et al. 🌍 Science of the Total Environment, 2019 – 214 citations
Spatiotemporal distribution of pharmaceuticals… – TV Madureira et al. 🌊 Science of the Total Environment, 2010 – 201 citations
Chiral stationary phases for liquid chromatography… – J Teixeira et al. 🔬 Molecules, 2019 – 172 citations
Seasonal and spatial distribution of endocrine-disrupting compounds… – C Ribeiro et al. 🌱 Archives of Environmental Contamination and Toxicology, 2009 – 139 citations
Enrichment of bacterial strains for the biodegradation… – VS Bessa et al. 🧫 International Biodeterioration & Biodegradation, 2017 – 134 citations
Degradation of fluoroquinolone antibiotics… – AS Maia et al. 💉 Journal of Chromatography A, 2014 – 133 citations
Enantioseparation of chiral pharmaceuticals… – AR Ribeiro et al. ⚖️ Journal of Chromatography B, 2014 – 130 citations
Enantioselectivity in drug pharmacokinetics and toxicity… – MM Coelho et al. 💊 Molecules, 2021 – 125 citations
New trends in sample preparation techniques… – C Ribeiro et al. 🧴 Critical Reviews in Analytical Chemistry, 2014 – 121 citations
Chiral pharmaceuticals in the environment – AR Ribeiro et al. 🌐 Environmental Chemistry Letters, 2012 – 104 citations

🔍 Conclusion:

The paper stands out for its clarity, relevance, and impact in the fields of green medicinal chemistry and drug development. Given its scientific merit, innovation, and interdisciplinary value, it is a strong contender for the Best Paper Award 🥇📖.

Thanasis Gimisis | Chemistry of Sugars and Nucleosides | Best Paper Award

Posted on 12/03/202512/03/2025 by chemical Scientist

Prof. Dr. Thanasis Gimisis | Chemistry of Sugars and Nucleosides | Best Paper Award

Professor of Organic Chemistry at National and Kapodistrian University of Athens in Greece.

🔬 Prof. Thanasis Gimisis is a distinguished Professor of Organic Chemistry at the National and Kapodistrian University of Athens (NKUA), Greece 🇬🇷. His research focuses on oxidatively produced DNA lesions, glycogen phosphorylase inhibitors, and synthetic sugar and nucleoside chemistry 🧪. With over 65 publications and 2,000+ citations 📚, he has significantly contributed to organic chemistry. He supervises numerous PhD, MSc, and undergraduate students 🎓 and has received funding from prestigious organizations, including the European Union 🌍. His expertise extends to teaching organic chemistry and bioorganic chemistry, shaping the next generation of scientists. 🚀

Professional Profile

Google Scholar

Orcid

Suitability for the Best paper Award

Prof. Gimisis has authored 65+ high-impact international journal articles with 2,000+ citations and an h-index of 21 📚. His research is well-recognized in DNA lesion synthesis, glycogen phosphorylase inhibitors, and synthetic sugar and nucleoside chemistry 🧬. His work has not only contributed to fundamental chemistry but also has implications in drug discovery and medicinal chemistry 💊.

Education 🎓

✅ Ph.D. in Organic Chemistry – National and Kapodistrian University of Athens (NKUA), Greece 🇬🇷
✅ Bachelor’s Degree in Chemistry – National and Kapodistrian University of Athens (NKUA), Greece 🇬🇷

Professional Experience 🧪

🔹 Professor of Organic Chemistry – Chemistry Department, NKUA (Current) 👨‍🏫
🔹 Teaching Experience – Organic Chemistry (theory & lab), Bioorganic Chemistry, and Chemical Biology 📖
🔹 Postgraduate Instructor – MSc courses on Oligonucleotide Synthesis and Asymmetric Synthesis of Natural Products 🎓
🔹 PhD & MSc Supervision – Supervised 4 completed PhD theses, 5 ongoing PhD theses, 31 completed MSc theses, and 6 ongoing MSc theses 📜
🔹 Postdoctoral Mentor – Supervised 5 postdoctoral researchers 🔬
🔹 Researcher – Expertise in DNA lesion synthesis, glycogen phosphorylase inhibitors, synthetic sugar & nucleoside chemistry 🏗️
🔹 Funded Researcher – Secured grants from EU, Hellenic Foundation for Research & Innovation, and National Scholarships Foundation 💰
🔹 Scientific Author – 65+ international publications, 2,000+ citations, h-index 21 📑
🔹 Conference Speaker – Presented 70+ oral and poster presentations at international conferences 🌍

Professional Development 🚀📖

Prof. Thanasis Gimisis has continuously advanced in organic chemistry, focusing on DNA lesion synthesis, glycogen phosphorylase inhibitors, and synthetic sugar chemistry 🔬. He has mentored PhD, MSc, and postdoctoral researchers, shaping the future of scientific innovation 🎓. His research, supported by prestigious grants 💰, has led to 65+ publications and 2,000+ citations 📚. Through international collaborations, conference presentations 🌎, and contributions to textbooks 📖, he remains at the forefront of organic synthesis and bioorganic chemistry. As an educator and researcher, he actively integrates cutting-edge developments into teaching and scientific discovery 🚀.

Research Focus 🔍🤖

Prof. Thanasis Gimisis specializes in organic chemistry, with a strong focus on bioorganic and medicinal chemistry 💊. His research explores oxidatively produced DNA lesions 🧬, glycogen phosphorylase inhibitors for potential therapeutic applications, and synthetic sugar, carba-sugar, and nucleoside chemistry 🍬. He also works on the hemisynthesis of natural and non-natural secoiridoid products from the Oleaceae family 🌿. Additionally, he develops novel synthetic methodologies to enhance chemical synthesis efficiency ⚗️. His groundbreaking work contributes to drug discovery, molecular biology, and organic synthesis, pushing the boundaries of modern chemistry 🚀.

Awards & Honors 🏆

🎖️ Research Grants & Funding – Secured prestigious grants from the European Union, Hellenic Foundation for Research & Innovation, and National Scholarships Foundation 💰

📜 High-Impact Publications – Authored 65+ international journal articles with 2,000+ citations and an h-index of 21 📚

🌍 International Recognition – Presented 70+ oral and poster presentations at leading global scientific conferences 🎤

🎓 Academic Leadership – Supervised multiple PhD, MSc, and postdoctoral researchers, contributing significantly to scientific education and mentorship 🏅

⚗️ Contributions to Organic Chemistry – Recognized for innovative research in bioorganic chemistry, DNA lesions, and nucleoside chemistry 🔬

Publication Top Notes:

📘 Encyclopedia of Radicals in Chemistry, Biology and Materials – A Adhikary, A Kumar, D Becker, MD Sevilla | Cited by: 567 | Year: 2012

🧪 Naturally occurring pentacyclic triterpenes as inhibitors of glycogen phosphorylase: synthesis, structure−activity relationships, and X-ray crystallographic studies – X Wen, H Sun, J Liu, K Cheng, P Zhang, L Zhang, J Hao, L Zhang, P Ni, … | Cited by: 257 | Year: 2008

🔬 5-endo-trig radical cyclizations: Disfavored or favored processes? – C Chatgilialoglu, C Ferreri, M Guerra, V Timokhin, G Froudakis, T Gimisis | Cited by: 113 | Year: 2002

🫒 Olives and olive oil as functional foods: bioactivity, chemistry and processing – A Kiritsakis, F Shahidi | Cited by: 83 | Year: 2017

🧬 Tautomerism in the guanyl radical – C Chatgilialoglu, C Caminal, A Altieri, GC Vougioukalakis, QG Mulazzani, … | Cited by: 76 | Year: 2006

🌀 1,5-Radical translocation protocol for the generation of C-1′ radicals in nucleosides. Synthesis of spiro nucleosides through a rare 5-endo-trig cyclization – T Gimisis, C Chatgilialoglu | Cited by: 75 | Year: 1996

🧫 Isolation, characterization, and independent synthesis of guanine oxidation products – T Gimisis, C Cismaş | Cited by: 72 | Year: 2006.

📌 Conclusion:

James M. Cook’s outstanding contributions to medicinal chemistry, intellectual property achievements, and academic leadership make him an exceptional candidate for the Best Scholar Award 🏆. His dedication to scientific excellence, innovation, and mentorship has significantly impacted modern therapeutics, making him highly deserving of this honor. 🚀

James Cook | Medicinal Chemistry | Best Scholar Award

Posted on 12/03/202512/03/2025 by chemical Scientist

Prof. James Cook | Medicinal Chemistry | Best Scholar Award

University Distinguished Professor and Adjunct Professor at UNIVERSITY OF WISCONSIN-MILWAUKEE, United States.

James M. Cook 🧪 is an esteemed scientist and innovator specializing in medicinal chemistry. Based in Milwaukee, WI, he has contributed significantly to drug discovery, particularly in the development of small-molecule treatments for airway hyperresponsiveness and inflammation in asthma. As a key inventor, Cook has collaborated with the UWM Research Foundation to advance intellectual property in pharmaceutical sciences. His research, supported by prestigious grants, has led to groundbreaking advancements in GABA(A) receptor modulators. His dedication to science and innovation continues to shape the future of therapeutic development. 🌍🔬

Professional Profile

Scopus

Orcid

Suitability for the Best Scholar Award

James M. Cook is a distinguished medicinal chemist 🧪 with a strong track record of innovative drug discovery and academic excellence. As a professor at the University of Wisconsin-Milwaukee (UWM) 🏛️, he has significantly contributed to pharmaceutical research, particularly in GABA(A) receptor modulators 💊 for treating neurological and respiratory disorders. His pioneering work has led to multiple patents, high-impact publications, and successful collaborations with the pharmaceutical industry ⚕️.

Education 🎓

Ph.D. in Medicinal Chemistry – Specialized in drug discovery and organic synthesis 🔬📚
Master’s Degree in Chemistry – Focused on molecular design and pharmaceutical sciences 🧪
Bachelor’s Degree in Chemistry – Strong foundation in chemical analysis and research 🏛️

Experience 🏆

Professor at the University of Wisconsin-Milwaukee (UWM) – Leading research in medicinal chemistry 🏛️👨‍🏫
Principal Investigator in Drug Discovery Projects – Developed novel GABA(A) receptor modulators for treating asthma and neurological disorders 💊🔍
Inventor & Patent Holder – Contributed to multiple patents in pharmaceutical innovation 📜💡
Recipient of Research Grants – Secured funding from NIH, UWM Research Foundation, and private institutions to advance medical research 💰🧠
Collaborator with Pharmaceutical Industry – Worked with biotech firms to translate research into real-world treatments ⚕️🏭

Professional Development 🚀📖

James M. Cook has continually advanced his expertise in medicinal chemistry 🔬 through groundbreaking research and innovation. As a professor at the University of Wisconsin-Milwaukee (UWM) 🏛️, he has mentored young scientists and led pioneering studies on GABA(A) receptor modulators 💊. His work has earned prestigious research grants 💰, enabling significant contributions to drug discovery. Cook has collaborated with pharmaceutical companies ⚕️ to translate research into practical treatments. With multiple patents and publications 📜, he remains committed to scientific excellence. His dedication to innovation, education, and industry partnerships continues to shape modern therapeutics. 🚀

Research Focus 🔍🤖

James M. Cook specializes in medicinal chemistry 🧪, focusing on the development of GABA(A) receptor modulators for treating neurological and respiratory disorders 🧠💨. His research explores small-molecule drug design to combat asthma, anxiety, and epilepsy ⚕️. With expertise in organic synthesis and pharmaceutical innovation 💡, he has contributed to groundbreaking treatments targeting airway hyperresponsiveness and inflammation 🌬️. His work integrates biochemical analysis, molecular modeling, and clinical applications 🏥. Through academic and industry collaborations 🤝, Cook aims to develop safer and more effective therapeutic agents, enhancing global healthcare solutions. 🌍🔍

Awards & Honors 🏆

Prestigious Research Grants 💰 – Funded by NIH, UWM Research Foundation, and private institutions for groundbreaking drug discovery.
Patent Holder & Innovator 📜💡 – Recognized for multiple patents in medicinal chemistry and pharmaceutical sciences.
Distinguished Professor at UWM 🏛️👨‍🏫 – Honored for excellence in teaching and research contributions.
Scientific Contribution Award 🧪🏅 – Acknowledged for advancements in GABA(A) receptor modulators.
Industry & Academic Collaboration Recognition 🤝⚕️ – Celebrated for translating research into real-world therapeutic applications.

Publication Top Notes:

📄 Procognitive and neurotrophic benefits of α5-GABA-A receptor positive allosteric modulation in a β-amyloid deposition mouse model of Alzheimer’s disease pathology – Neurobiology of Aging, 2025 – 📑 Cited by: 0

💊 Intravenous Nanoemulsions Loaded with Phospholipid Complex of a Novel Pyrazoloquinolinone Ligand for Enhanced Brain Delivery – Pharmaceutics, 2025 – 📑 Cited by: 0

⚕️ Antinociceptive Effects of a2/a3-Subtype-Selective GABAA Receptor Positive Allosteric Modulators KRM-II-81 and NS16085 in Male Rats: Behavioral Specificity – Journal of Pharmacology and Experimental Therapeutics, 2024 – 📑 Cited by: 1

🐵 Evaluation of the sedative-motor effects of novel GABAkine imidazodiazepines using quantitative observation techniques in rhesus monkeys – Journal of Psychopharmacology, 2024 – 📑 Cited by: 0

🧬 GABA(A) Receptor Activation Drives GABARAP–Nix Mediated Autophagy to Radiation-Sensitize Primary and Brain-Metastatic Lung Adenocarcinoma Tumors – Cancers, 2024 – 📑 Cited by: 1

🦠 Development of non-sedating benzodiazepines with in vivo antischistosomal activity – Antimicrobial Agents and Chemotherapy, 2024 – 📑 Cited by: 0

🧠 An alpha 5-GABAA receptor positive allosteric modulator attenuates social and cognitive deficits without changing dopamine system hyperactivity in rats exposed to valproic acid in utero – Autism Research, 2024 – 📑 Cited by: 0

🔬 Extrasynaptic Localization Is Essential for α5GABAA Receptor Modulation of Dopamine System Function – eNeuro, 2024 – 📑 Cited by: 1

💡 New Imidazodiazepine Analogue, 5-(8-Bromo-6-(pyridin-2-yl)-4H-benzo[f]imidazo[1,5-a][1,4]diazepin-3-yl)oxazole, Provides a Simplified Synthetic Scheme, High Oral Plasma and Brain Exposures, and Produces Antiseizure Efficacy in Mice, and Antiepileptogenic Activity in Neural Networks in Brain Slices from a Patient with Mesial Temporal Lobe Epilepsy – ACS Chemical Neuroscience, 2024 – 📑 Cited by: 2

⚡ KRM–II–81 suppresses epileptiform activity across the neural network of cortical tissue from a patient with pharmacoresistant epilepsy – Heliyon, 2024 – 📑 Cited by: 2