Sabyasachi Sarkar | Bioinorganic Chemistry | Best Researcher Award

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Prof. Dr. Sabyasachi Sarkar | Bioinorganic Chemistry | Best Researcher Award 

Honorary Distinguished Professor | Ramakrishna Mission Vidyamandira | India

Prof. Dr. Sabyasachi Sarkar is a distinguished chemist whose pioneering work bridges fundamental and applied research, combining enzymatic and nanocarbon innovations to create transformative solutions for science and society. He has led and contributed to advanced research in bioinorganic chemistry, catalysis, and nanomaterial systems, with a focus on enzyme-inspired catalysis, sustainable chemical processes, and nanocarbon-based energy conversion. His interdisciplinary research integrates biochemical principles with material science, resulting in significant advancements in metalloenzyme modeling, biomimetic catalyst development, and functional nanomaterials. Prof. Sarkar’s contributions are further exemplified by multiple groundbreaking patents in drug delivery, ambient energy conversion, and catalytic ammonia synthesis, demonstrating both innovation and real-world applicability. His academic influence extends through the training and mentoring of scientists, fostering collaborations across chemistry, biology, and materials science. Prof. Sarkar has received numerous honors and recognitions for his excellence in research and education, reflecting his role as a global leader in advancing sustainable chemistry. His scholarly impact is evident in his 6,444 citations, 229 documents, and an h-index of 39, underscoring the enduring significance and reach of his work in chemical sciences.

Profiles : Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

 

Featured Publications

Müller, A., Sarkar, S., Shah, S. Q. N., Bögge, H., Schmidtmann, M., & Sarkar, S., et al. (1999). Archimedean synthesis and magic numbers: “Sizing” giant molybdenum‐oxide‐based molecular spheres of the keplerate type. Angewandte Chemie International Edition, 38(21), 3238–3241. Cited by: 503.

Tripathi, S., Sonkar, S. K., & Sarkar, S. (2011). Growth stimulation of gram (Cicer arietinum) plant by water soluble carbon nanotubes. Nanoscale, 3(3), 1176–1181. Cited by: 358.

Goswami, S., Das, S., Aich, K., Pakhira, B., Panja, S., Mukherjee, S. K., & Sarkar, S. (2013). A chemodosimeter for the ratiometric detection of hydrazine based on return of ESIPT and its application in live-cell imaging. Organic Letters, 15(21), 5412–5415. Cited by: 263.

Das, S. K., Chaudhury, P. K., Biswas, D., & Sarkar, S. (1994). Modeling for the active site of sulfite oxidase: Synthesis, characterization, and reactivity of [MoVIO₂(mnt)₂]²⁻ (mnt²⁻ = 1,2-dicyanoethylenedithiolate). Journal of the American Chemical Society, 116(20), 9061–9070. Cited by: 217.

Tripathi, S., & Sarkar, S. (2015). Influence of water soluble carbon dots on the growth of wheat plant. Applied Nanoscience, 5(5), 609–616. Cited by: 200.

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

Published on 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
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 Author65+ 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. 🚀