Zhongyi Zeng | Synthetic Chemistry | Best Researcher Award

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Prof. Dr. Zhongyi Zeng –  Synthetic Chemistry – Best Researcher Award

Alignment with Award Category

Professor Zeng’s interdisciplinary approach, integrating organic chemistry, catalysis, green chemistry, and electrosynthesis, aligns seamlessly with the objectives of both the Best Researcher Award and the Excellence in Innovation Award. His ability to translate fundamental discoveries into practical synthetic tools is emblematic of high-impact research excellence.

Guangzhou Medical University | China

Profile

Orcid

scopus

scholar

 

🎓Early Academic Pursuits 

Education and Training

Dr. Zhongyi Zeng’s academic journey is deeply rooted in his passion for pharmaceutical engineering and organic chemistry. Born in October 1989 in Hunan, China, Zeng embarked on his scholarly path at Hunan Normal University, where he earned his Bachelor’s degree in Pharmaceutical Engineering (2008–2012). Guided by Prof. Yulin Zeng, his foundational studies focused on medicinal and organic chemistry, paving the way for his interest in synthetic methodologies and drug design. His pursuit of excellence led him to South China Normal University, where he completed his Master’s degree in Organic Chemistry (2012–2015) under the supervision of Prof. Dingqiao Yang, diving deeper into advanced organic synthesis, catalysis, and molecular reactivity. His academic curiosity and determination brought him to Europe, where he earned his Ph.D. from the Institute of Organic Chemistry at Heidelberg University, Germany (2015–2018). There, he specialized in transition-metal catalysis and C–H functionalization, key techniques in synthetic organic chemistry, under the guidance of distinguished researchers in the field.

💼Professional Endeavors 

Academic Positions

Following his Ph.D., Dr. Zeng broadened his scientific horizons through two postdoctoral research associate positions. From 2018 to 2019, he worked at the University of Zurich’s Department of Chemistry, where he explored electrocatalytic and photocatalytic reactions with high selectivity. This was followed by a position at the Ruhr-University of Bochum’s Faculty of Chemistry and Biochemistry in Germany (2019–2021), where his multidisciplinary work contributed to advances in redox chemistry, enantioselective transformations, and C–H bond activation using fluorinated π-systems. In December 2021, he returned to China as a Professor and Principal Investigator at the School of Pharmaceutical Sciences, Guangzhou Medical University. Here, Dr. Zeng leads a dynamic research group focusing on electrochemical synthesis, dearomatization strategies, and transition-metal-catalyzed annulation reactions.

📚Contributions and Research Focus on Synthetic Chemistry

Dr. Zeng’s research lies at the cutting edge of coordination chemistry, green synthesis, and asymmetric catalysis. His work emphasizes sustainable methodologies for complex molecule construction, particularly via C–H activation, annulation, and carboamination reactions. Notably, his group has demonstrated innovative strategies involving electrocatalytic enantioselective tandem reactions, meta-selective functionalization, and photoinduced dearomatization of pyridines. His multidisciplinary approach combines computational chemistry with experimental mechanistic investigations to develop novel catalytic cycles and unravel reactivity patterns. Key publications in high-impact journals such as Nature Communications, ACS Catalysis, Angewandte Chemie, Coordination Chemistry Reviews, and Organic Chemistry Frontiers highlight his significant contributions to fluorinated molecule design, redox-neutral transformations, and atropisomer synthesis.

🏆Accolades and Recognition 

Dr. Zeng’s excellence in multidisciplinary research has been widely recognized. In 2023, he was honored by the Guangdong Zhujiang Talent Program, a prestigious award recognizing scientific innovation and leadership. Earlier in his academic career, he received the Guangzhou Elite Scholarship Council Award in 2015, which enabled his international academic training and research exposure. His achievements reflect a blend of technical prowess, innovation, and mentorship.

🌍 Impact and Influence 

Community Impact

With over a dozen first-author and corresponding-author publications, Dr. Zeng has made a profound impact on the global chemical research community. His findings have contributed to the advancement of green chemistry, drug discovery, and synthetic methodology development. Collaborating with esteemed scientists like Prof. A. Stephen K. Hashmi and Prof. Weiping Yi, he has nurtured a collaborative, interdisciplinary environment that bridges chemistry, pharmaceutical sciences, and materials research. His mentorship has also inspired a new generation of chemists at Guangzhou Medical University, integrating cross-disciplinary learning and real-world problem solving in the fields of medicinal chemistry, electrosynthesis, and organic reaction mechanisms.

🔮Legacy and Future Contributions 

Dr. Zhongyi Zeng’s legacy is not only marked by his technical achievements but also by his forward-thinking vision for sustainable chemical synthesis. As a rising star in the academic world, he is poised to lead future innovations in redox-active catalysis, enantioselective functionalization, and multistep electrochemical synthesis. His current and future projects aim to develop scalable, eco-friendly processes for the pharmaceutical and fine chemical industries. With his unique combination of theoretical insight, experimental skill, and a global perspective, Dr. Zeng’s research will continue to bridge gaps between fundamental science and applied chemistry.

 

Conclusion

Dr. Zhongyi Zeng stands as a prominent example of a multidisciplinary scholar whose academic journey and scientific contributions transcend traditional boundaries. From his foundational training in pharmaceutical engineering to his leadership in organic and electrochemical catalysis, his work continues to enrich the fields of synthetic chemistry, coordination chemistry, and green technology. As he advances in his career, Dr. Zeng is expected to make enduring contributions to global scientific progress through innovation, collaboration, and education.

📚Publications

Regio- and stereospecific cis-hydrophenoxylation of ynamides with acidic phenols

Authors: Ting Wang; Yuyan Wan; Mingyao Xu; Yi Wang; Xu-Jia Hong; Hui Gao; Zhi Zhou; Wei Yi; Zhongyi Zeng

Journals: Organic & Biomolecular Chemistry

Rh(iii)-catalyzed redox-neutral C–H [4 + 1] annulation of sulfoximines with α,α-difluoromethylene alkynes: diastereoselective synthesis of E-monofluoroalkenyl benzoisothiazole 1-oxides

Authors: Ting Wang; Zhi-Huan Peng; Liexin Wu; Qingwei Song; Qianying Li; Hui Gao; Zhongyi Zeng; Zhi Zhou; Wei Yi

Journals: Organic Chemistry Frontiers

Calcium(II)-Mediated Three-Component Selenofunctionalization of Alkenes under Mild Conditions

Authors: Minyao Kuang; Haoran Li; Zhongyi Zeng; Hui Gao; Zhi Zhou; Xujia Hong; Wei Yi; Shengdong Wang

Journals: Organic Letters

Site-selective rhodium carbene transfer of 2-hydroxy-β-nitrostyrenes with diazo compounds En route to 2-alkylated benzofurans

Authors: Zhongyi Zeng; Haiman Zhang; Zhongyi Zeng; Yurong Yang; Junyuan Tang; Silin Zhang; Wei Yi; Zhi Zhou

Journals: Organic Chemistry Frontiers

Decarboxylation‐Initiated Intermolecular Carbon‐Heteroatom Bond Formation

Authors: Zhongyi Zeng; Zhongyi Zeng; Abigail Feceu; Nardana Sivendran; Lukas J. Gooßen

Journals: Advanced Synthesis & Catalysis

Suman Lata | Pharmaceutical Chemistry | Excellence in Innovation

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Dr. Suman Lata – Pharmaceutical Chemistry – Excellence in Innovation

Amar Shaheed Baba Ajit Singh Jujhar Singh Memorial College of Pharmacy | India

Author Profile 

Early Academic Pursuits 🎓

Education and Training

Her academic journey began with a deep-rooted interest in pharmaceutical sciences. She pursued her B. Pharmacy and M. Pharmacy degrees at Punjabi University, Patiala, Punjab, from 1993 to 2021. This extensive period of study provided her with a robust foundation in pharmaceutical chemistry, which would later define her career and research pursuits. During her academic tenure, she demonstrated exceptional dedication and an aptitude for complex chemical processes, setting the stage for her future contributions to the field of pharmaceutical research.

 Professional Endeavors 💼

Academic Positions

she has been a pivotal figure at Amar Shaheed Baba Ajit Singh Jujhar Singh Memorial College of Pharmacy in Bela, Ropar, Punjab. Since 2007, she has been serving as a faculty member in the Department of Pharmaceutical Chemistry. Her role at the college involves teaching, mentoring students, and conducting research. Over the years, she has significantly contributed to the academic and professional growth of numerous students, guiding them through the intricacies of pharmaceutical chemistry and encouraging them to pursue research-driven careers.

Contributions and Research Focus on Pharmaceutical Chemistry📚

Research and Innovations

Her research focuses on the synthesis and characterization of novel compounds with potential therapeutic applications. Her work often explores the antimicrobial potential of various chemical conjugates and scaffolds. Notable among her research contributions are her publications in reputable journals:

  • Sun, Y., Wu, B., Zhang, D., Guo, Q., Jia, P., Hu, T., Wang, X., & Yang, J. (2022). State of the art of research on roll stamping (Chain-die forming). Journal of Plasticity Engineering, 67-84.
  • Lata, S. (2024). Exploring the antimicrobial potential of novel 2-oxo-2-H-chromene conjugates with guanine, thiazole, and imidazole: Synthesis, characterization, and biological evaluation. European Journal of Medicinal Chemistry Reports, 2024-12. DOI: 10.1016/j.ejmcr.2024.100179
  • Lata, S. (2024). AN INSIGHT INTO SYNTHETIC AND PHARMACOLOGICAL PROFILE OF SULPHANILAMIDE. International Journal of Biology, Pharmacy and Allied Sciences (IJBPAS), 2024-06.
  • Lata, S. (2024). SCOPE OF BENZOTHIAZOLE SCAFFOLD: A REVIEW. International Journal of Biology, Pharmacy and Allied Sciences (IJBPAS), 2024-06.
  • Lata, S. (2024). NUCLEAR MEDICINE. Futuristic Trends in Pharmacy & Nursing Volume 3 Book 19, 2024-03-06. DOI: 10.58532/v3bgpn19p1ch4
  • Lata, S. (2024). RADIOCHEMISTRY. Futuristic Trends in Pharmacy & Nursing Volume 3 Book 19, 2024-03-06. DOI: 10.58532/v3bgpn19p1ch3

These publications highlight her expertise in synthetic chemistry and pharmacological evaluations, contributing valuable insights to the scientific community.

Accolades and Recognition 🏆

Her contributions have been recognized through various awards and accolades. Her research on the synthesis and biological evaluation of novel compounds has received widespread acclaim. She has been instrumental in advancing the field of pharmaceutical chemistry, earning respect and admiration from her peers and students alike.

 Impact and Influence 🌍

Community Impact

Her work has had a profound impact on the field of pharmaceutical sciences. Her research on antimicrobial compounds and pharmacologically active scaffolds has paved the way for the development of new therapeutic agents. Her findings on the antimicrobial potential of 2-oxo-2-H-chromene conjugates and other novel compounds have significant implications for the treatment of various infections, potentially leading to the development of more effective and targeted therapies.

 Legacy and Future Contributions 🔮

Future Contributions

Looking forward,  she aims to continue her research in pharmaceutical chemistry, focusing on the development of novel therapeutic agents. Her dedication to teaching and mentoring will ensure that future generations of pharmacists and researchers are well-equipped to tackle the challenges of modern medicine. Her legacy will be defined by her contributions to the synthesis and characterization of novel compounds, as well as her unwavering commitment to advancing pharmaceutical education and research.

Her career is a testament to her passion for pharmaceutical sciences and her commitment to excellence in research and education. Her work continues to inspire and influence the scientific community, and her future contributions are eagerly anticipated.

Notable Publications