Emergence of ligand-to-metal charge transfer in homogeneous photocatalysis and photosensitization

IF 6.1 Q2 CHEMISTRY, PHYSICAL

Chemical physics reviews Pub Date : 2022-06-01 DOI:10.1063/5.0086718

Chenfei Li, X. Kong, Z. Tan, C. Yang, Han Sen Soo

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引用次数: 6

Abstract

Light energy can be harnessed by photosensitizers or photocatalysts so that some chemical reactions can be carried out under milder conditions compared to the traditional heat-driven processes. To facilitate the photo-driven reactions, a large variety of chromophores that are operated via charge transfer excitations have been reported because of their typically longer excited-state lifetimes, which are the key to the downstream photochemical processes. Although both metal-to-ligand charge transfers and ligand-to-metal charge transfers are well-established light absorption pathways; the former has been widely adopted in photocatalysis, whereas the latter has recently taken on greater importance in photosensitization applications. In this article, we review the latest developments on ligand-to-metal charge transfer photosensitization by molecular complexes across the periodic table by focusing homogeneous photocatalysis and the use of photophysical measurements and computational calculations to understand the electronic structures, photochemical processes, structure–activity relationships, and reaction mechanisms. We also present our perspectives on the possible future developments in the field.

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均相光催化和光敏化中配体到金属电荷转移的出现

光敏剂或光催化剂可以利用光能，与传统的热驱动过程相比，一些化学反应可以在更温和的条件下进行。为了促进光驱动反应，由于其激发态寿命通常较长，这是下游光化学过程的关键，因此已经报道了大量通过电荷转移激发操作的发色团。虽然金属到配体的电荷转移和配体到金属的电荷转移都是公认的光吸收途径;前者已被广泛应用于光催化，而后者近年来在光敏化应用中发挥了更大的作用。本文从均相光催化、光物理测量和计算计算等方面综述了各元素周期表分子配合物在配体-金属电荷转移光敏化方面的最新进展，以了解其电子结构、光化学过程、构效关系和反应机理。我们还提出了我们对该领域未来可能发展的看法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chemical physics reviews

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