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8° SEMINARIO QUÍMICA ORGÁNICA IQUIR 2022

SEMINARIO QUÍMICA ORGÁNICA 23-05-22

EXPOSITORLic. Federico Dezotti

TÍTULO: "Catalysis with Diboron(4)/Pyridine: Application to the Broad-Scope [3 + 2] Cycloaddition of Cyclopropanes and Alkenes".

FUENTEZhengwei Ding, Zhi Liu, Zhijun Wang, Tao Yu, Ming Xu, Jingru Wen, Kaiyan Yang, Hailong Zhang, Liang Xu, and Pengfei Li, J. Am. Chem. Soc., 2022, 144, 19, 8870–8882.

DÍA, HORA y LUGAR: Lunes 23 de mayo de 2022, 18:00 h, Plataforma MEET GOOGLE.

Linkmeet.google.com/bfh-poxv-bso

RESUMEN: In contrast to the extensive but non-recyclable use of tetraalkoxydiboron(4) compounds as stoichiometric reagents in diverse reactions, this article reports an atom-economical reaction using a commercial diboron(4) as the catalyst. The key to success was designing a catalytic cycle for radical [3 + 2] cycloaddition involving a pyridine cocatalyst to generate from the diboron(4) catalyst and reversibly mediate the transfer of boronyl radicals. In comparison with known [3 + 2] cycloaddition with transition metal-based catalysts, the current reaction features not only metal-free conditions, inexpensive and stable catalysts, and simple operation but also remarkably broadened substrate scope. In particular, previously unusable cyclopropyl ketones without an activating group and/or alkenes with 1,2-disubstitution and 1,1,2-trisubstitution patterns were successfully used for the first time. Consequently, challenging cyclopentane compounds with various levels of substitution (65 examples, 57 new products, up to six substituents at all five ring atoms) were readily prepared in generally high to excellent yield and diastereoselectivity. The reaction was also successfully applied in concise formal synthesis of an anti-obesity drug and building natural product-like complex bridged or spirocyclic compounds. Mechanistic experiments and computational investigation support the proposed radical relay catalysis featuring a pyridine-assisted boronyl radical catalyst. Overall, this work demonstrates the first approach to use tetraalkoxydiboron(4) compounds as catalysts and may lead to the development of new, green, and efficient transition metal-like boron-catalyzed organic reactions.



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