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SELECTBIO Conferences Flow Chemistry Asia 2023

Jisong Zhang's Biography

Jisong Zhang, Associate Professor, Tsinghua University

Dr. Jisong Zhang received his B.S. (2009) and PhD (2014) degree in Department of Chemical Engineering from Tsinghua University, China. From 2015 to 2017, he moved to Department of Chemical Engineering, Massachusetts Institute of Technology and worked as a postdoctoral associate. He is now working as an associate professor in the Department of Chemical Engineering, Tsinghua University. Dr. Zhang’s research interests focus on flow chemistry and gas-liquid-solid reactions in micro-packed bed reactors, especially on 1) hydrogenation and oxidation in micropacked bed reactor; 3) continuous production of pharmaceuticals; 4) online analysis with micro-equipment. He has published 90 papers in peer-reviewed journals and issued for 20 Chinese patents. He has obtained several fundings from government and industrial company. He was selected as the “the 2019 Class of Influential Researchers” of I&ECR and “Emerging investigator” of Journal of flow chemistry.

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Continuous Aerobic Alcohol Oxidation in a Micro-Packed Bed Reactor with Nitroxyl-Radical Catalysts: From Homogeneous to Heterogeneous

Friday, 6 October 2023 at 15:00

Add to Calendar ▼2023-10-06 15:00:002023-10-06 16:00:00Europe/LondonContinuous Aerobic Alcohol Oxidation in a Micro-Packed Bed Reactor with Nitroxyl-Radical Catalysts: From Homogeneous to HeterogeneousFlow Chemistry Asia 2023 in Tokyo, JapanTokyo,

Selective aerobic oxidation is of crucial importance in organic synthesis, and sustainable oxidation strategies are highly desirable under green chemistry viewpoints. However, green oxidation processes rely not only on effective catalysts but also on the implementation of reactor technologies that enhance reaction performance and overall safety. Recently, nitroxyl radicals, as practical catalysts in oxidation have gradually attracted attention. These radicals can be further divided into stable radicals (such as 2, 2, 6, 6-tetramethylpiperidine nitrox, TEMPO) and active radicals (phthalimide-N-oxyl, PINO) produced by N-hydroxyimide (such as N-hydroxyphthalimide, NHPI). Nitroxyl radicals can form efficient catalytic systems in conjunction with metallic or non-metallic co-catalysts, enabling aerobic oxidations with high selectivity under mild conditions to obtain a variety of carbonyl compounds. Nevertheless, the existing nitroxyl-radical catalytic systems still face the challenges of high cost and limited recyclability. In this study, with a self-constructed micro-packed bed reactor platform, the space-time yields of alcohol oxidation to aldehyde and methylene oxidation to ketone were significantly enhanced by one to two orders of magnitude when compared to batch reactors. Furthermore, several novel strategies for nitroxyl-radical functionalized activated carbon catalysts are proposed, which not only surpass the state-of-art commercial silicon-based catalysts in terms of reactivity but also demonstrate exceptional stability in continuous-flow mode.

Add to Calendar ▼2023-10-05 00:00:002023-10-06 00:00:00Europe/LondonFlow Chemistry Asia 2023Flow Chemistry Asia 2023 in Tokyo, JapanTokyo,