可见光诱导的过渡金属催化转化:超越传统光敏剂
Visible light-induced transition metal-catalyzed transformations: beyond conventional photosensitizers.
作者信息
Parasram Marvin, Gevorgyan Vladimir
机构信息
Department of Chemistry, University of Illinois at Chicago, 845 West Taylor Street, Chicago, Illinois 60607-7061, USA.
出版信息
Chem Soc Rev. 2017 Oct 16;46(20):6227-6240. doi: 10.1039/c7cs00226b.
Abstract
Employment of simple transition metal (TM = Co, Fe, Cu, Pd, Pt, Au)-based photocatalyst (PC) has led to the dramatic acceleration of known TM-catalyzed reactions, as well as to the discovery of unprecedented chemical transformations. Compared to the conventional cooperative/dual photocatalysis (type B), this new class of unconventional PCs operates via a single photoexcitation/catalytic cycle, where the TM complex plays a "double duty" role by harvesting light and catalyzing the chemical transformation. Also, these TM photocatalysts participate in the bond-forming/breaking event in the transformation via a substrate-TM interaction, an aspect that is uncommon for conventional photocatalysis (type A). This tutorial review highlights the recent advances in this emerging area.
摘要
使用基于简单过渡金属(TM = 钴、铁、铜、钯、铂、金)的光催化剂(PC)已显著加速了已知的TM催化反应,并促成了前所未有的化学转化的发现。与传统的协同/双光催化(B型)相比,这类新型的非常规PC通过单一的光激发/催化循环运行,其中TM配合物通过吸收光和催化化学转化发挥“双重作用”。此外,这些TM光催化剂通过底物-TM相互作用参与转化中的键形成/断裂过程,这在传统光催化(A型)中并不常见。本教程综述重点介绍了这一新兴领域的最新进展。
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