Yunfei Zhang | Organic Chemistry | Best Researcher Award Posted on 21/10/202421/10/2024 by sciencefatherLeave a Comment on Yunfei Zhang | Organic Chemistry | Best Researcher Award Assoc Prof Dr.Yunfei Zhang | Organic Chemistry | Best Researcher Award Training and Continuous Learning: His postdoctoral training with renowned researchers such as Prof. Tristan Lambert, and ongoing collaborations with institutions and industry, indicate his continuous pursuit of cutting-edge research and innovation in his field. Assoc Prof Dr. Yunfei Zhang, China Agricultural University, China Profile Scopus OrcID 🏛️Early Academic Pursuits Yunfei Zhang began his academic journey at China Agricultural University, earning a B.S. degree in 2013. His passion for organic chemistry led him to pursue a Ph.D. in 2018 under the guidance of Prof. Zhangjie Shi at Peking University. His doctoral studies focused on advanced organic synthesis and catalysis. Following this, he conducted postdoctoral research from 2018 to 2020 with Prof. Tristan Lambert at Cornell University, where he honed his expertise in electrochemical synthesis and transition metal catalysis. His early academic experience laid the foundation for his future research innovations. 👨🔬 PROFESSIONAL ENDEAVORS In 2020, Yunfei Zhang joined China Agricultural University as an Associate Professor. Since then, he has led numerous high-impact research projects. His work has been recognized through collaborations with industry leaders such as ExxonMobil, where he explored active nitrogen-containing molecules (Project No. 202304811010385). His academic responsibilities extend beyond research, as he also serves as the English Editor of the Chinese Journal of Pesticide Science, showcasing his editorial skills and commitment to advancing knowledge in his field. 🏆 CONTRIBUTIONS AND RESEARCH FOCUS Yunfei Zhang’s contributions to electrochemical organic synthesis and transition metal catalysis are significant. His notable publications, such as Org. Lett. 2023, 25, 7816-7821 and Org. Lett. 2022, 24, 5762-5766, have received widespread attention. His work in developing electrocatalytic methods, such as cyanidation of carboxylic acids (Patent No. 2022106184802) and synthesis of polysubstituted oxazoles (Patent No. 2022105876971), demonstrates his innovative approach to addressing complex chemical challenges. His research on novel pesticides has also contributed to the advancement of agricultural chemistry, offering sustainable solutions for pest control. 📊 IMPACT AND INFLUENCE Yunfei Zhang’s work has had a significant impact on both academia and industry. His research papers, published in high-ranking journals such as Organic Chemistry Frontiers, Journal of Organic Chemistry, and ChemistryViews, have garnered high citations and recognition. Notably, his publication Org. Chem. Front. 2024, DOI: 10.1039/D4QO01381F has been nominated for the “Best Researcher Award” by the CSA Awards Committee, underscoring his influence in the field. Furthermore, his award of the 2025 OBC New Talent and the 2024 Thieme Certificate of Excellent Presentation highlights his standing as an emerging leader in organic chemistry. 🏅ACADEMIC CITES Yunfei Zhang’s research has been widely cited in both academic and industrial contexts. His citation index reflects the importance and relevance of his work, especially in the areas of electrochemical synthesis and transition metal catalysis. His ongoing contributions continue to be a reference point for researchers in the fields of organic chemistry and pesticide development. 🚀LEGACY AND FUTURE CONTRIBUTIONS As an associate professor at China Agricultural University, Yunfei Zhang’s legacy is already evident in his innovative research and industry collaborations. His patents and publications will undoubtedly influence future developments in electrochemical organic synthesis and pesticide chemistry. Looking ahead, his continued focus on sustainable and efficient chemical processes promises to further advance these fields, ensuring his lasting impact on both academic and practical applications. 📄Publications Bio-stimulant based nanodelivery system for pesticides with high adhesion and growth stimulation Authors: He, C., Wu, T., Li, J., Zhang, Y., Du, F. Journal: Chemical Engineering Journal, 2024, 491, 151904 Electrochemical Lactonization Enabled by Unusual Shono-Type Oxidation from Functionalized Benzoic Acids Authors: Liu, C., Liu, Y., Yang, S., Zheng, B., Zhang, Y. Journal: Organic Letters, 2024, 26(9), pp. 1936–1940 Phytosterol organic acid esters: Characterization, anti-inflammatory properties and a delivery strategy to improve mitochondrial function Authors: Zou, X., Xu, T., Zhao, T., Zhang, Y., Yang, X. Journal: Current Research in Food Science, 2024, 8, 100702 Electrochemical Decarboxylative Elimination of Carboxylic Acids to Alkenes Authors: Yu, J., Liu, T., Sun, W., Zhang, Y. Journal: Organic Letters, 2023, 25(43), pp. 7816–7821 Recent advances in electrochemical C-H bond amination Authors: Liu, C., Liu, J., Li, W., Lu, H., Zhang, Y. Journal: Organic Chemistry Frontiers, 2023, 10(20), pp. 5309–5330
Yan Wang | Organic Chemistry | Best Researcher Award Posted on 25/09/202425/09/2024 by sciencefatherLeave a Comment on Yan Wang | Organic Chemistry | Best Researcher Award Dr .Yan Wang | Organic Chemistry| Best Researcher Award Innovative Research: Wang Yan’s research focuses on a visible-light-driven α-hydroxylation of β-dicarbonyl compounds mediated by NaI/NPh3 or NaI/PPh3 in water. This project highlights her ability to design efficient photocatalytic processes in sustainable, aqueous conditions, contributing to green chemistry advancements. Dr . Yan Wang, Ningxia University, China Profile Scopus OrcID 🎓Early Academic Pursuits Wang Yan is currently a doctoral candidate at Ningxia University, focusing on Organic Chemistry under the supervision of Prof. Jinhui Yang. Her research passion has centered around innovative photocatalytic systems, particularly exploring EDA (Electron Donor-Acceptor) complexes. During her PhD journey, Wang Yan has contributed to two important publications on photocatalytic EDA systems, with another compelling paper soon to be released. 💼Professional Endeavors Wang Yan’s professional achievements are highlighted by her work in visible-light-driven α-hydroxylation of β-dicarbonyl compounds. This research, mediated by NaI/NPh3 or NaI/PPh3 in water, has shown significant progress in the realm of aqueous phase photocatalysis. She has also collaborated in institution-land cooperative projects between the Chinese Academy of Engineering and Ningxia. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Wang Yan’s key contribution to organic chemistry lies in the development of an efficient EDA complex system using β-dicarbonyl substrates. Her innovative approach eliminates the need for pre-installed substrates, employing NaI and the cost-effective NPh3. This system not only enhances the EDA photocatalytic process in the aqueous phase but also exhibits excellent oxygen tolerance. Furthermore, the system facilitates the hydrogen evolution reaction and hydration–hydroxylation of β-dicarbonyl derivatives using water as both solvent and oxygen source. 🏆IMPACT AND INFLUENCE Wang Yan’s research has impacted the field of photocatalysis, particularly in promoting eco-friendly and cost-effective approaches in organic chemistry. Her novel work in using non-homogeneous systems and water-based solvents for chemical reactions reflects her commitment to advancing green chemistry initiatives. 🏅ACADEMIC CITES Her work has been recognized in the Chemical Abstracts Service (CAS) citation index, and her articles have been featured in reputable journals such as Organic Chemistry Frontiers. These citations reflect the scientific community’s recognition of her contributions to photocatalysis. 🔮LEGACY AND FUTURE CONTRIBUTIONS Wang Yan aims to continue advancing the field of EDA complexes and photocatalysis. Her future work will likely focus on expanding the practical applications of these systems in industrial and environmental contexts. Through her innovative approaches and dedication, she is poised to make lasting contributions to the field of organic chemistry. 📰PUBLICATIONS Green and efficient synthesis of dibenzyl cyanamides and ureas with cyanamide as a block Authors: Wang, Z.; He, Y.; Wang, F.; Wu, J.; Yang, J. Journal: RSC Advances, 2024, 14(33), pp. 23693–23698 Visible-light-driven α-hydroxylation of β-dicarbonyl compounds mediated by NaI/NPh3 or NaI/PPh3 in water Authors: Wang, Y.; Wang, Z.; Luo, H.; Li, D.; Yang, J. Journal: Organic Chemistry Frontiers, 2024 KOH-promoted cascade C-Cl bond activation and amidation of trichloromethyl aromatic compounds with formamides in water Authors: Wang, C.; Wang, Y.; Wu, J.; Liang, J.; Yang, J. Journal: Organic and Biomolecular Chemistry, 2023, 21(25), pp. 5185–5188 Copper-catalyzed direct synthesis of 3-methylene-2-arylisoindolin-1-ones with calcium carbide as a surrogate of gaseous acetylene Authors: Wu, J.; Ma, Y.; Wang, Y.; Li, D.; Yang, J. Journal: Green Chemistry, 2023, 25(9), pp. 3425–3430 Research Progress on the Synthesis of Nitrogen-Containing Compounds with Cyanamide as a Building Block | 以氨基氰为原料合成含氮化合物的研究进展 Authors: Wu, J.; Wang, Z.; Wang, C.; Li, D.; Yang, J. Journal: Chinese Journal of Organic Chemistry, 2023, 43(2), pp. 436–454
Wang Yan’s key contribution to organic chemistry lies in the development of an efficient EDA complex system using β-dicarbonyl substrates. Her innovative approach eliminates the need for pre-installed substrates, employing NaI and the cost-effective NPh3. This system not only enhances the EDA photocatalytic process in the aqueous phase but also exhibits excellent oxygen tolerance. Furthermore, the system facilitates the hydrogen evolution reaction and hydration–hydroxylation of β-dicarbonyl derivatives using water as both solvent and oxygen source.