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作为光驱动硫化物氧化反应的光催化剂的双原子体系，以水为唯一的氧原子来源。

A dyad as photocatalyst for light-driven sulfide oxygenation with water as the unique oxygen atom source.

机构信息

Laboratoire de Chimie et Biologie des Métaux-UMR 5249, Université Grenoble I-CNRS-CEA, CEA Grenoble-iRTSV, 17 avenue des Martyrs, 38054 Grenoble cedex 9, France.

出版信息

Inorg Chem. 2011 Sep 5;50(17):7952-4. doi: 10.1021/ic201431z. Epub 2011 Jul 27.

DOI:10.1021/ic201431z

PMID:21793512

Abstract

With the objective to convert light energy into chemical oxidation energy, a ruthenium-based dyad constituted of the assembly of a photosensitizer and a catalytic fragment was synthesized. Upon irradiation with blue LEDs, and in the presence of an electron acceptor, the complex is able to catalyze selective sulfide oxygenation involving an oxygen atom transfer from water to the substrate. Electrochemical and photophysical studies highlighted a proton-coupled electron transfer (PCET) to access to a high valent oxidant Ru(IV) oxo species.

摘要

为了将光能转化为化学氧化能，合成了一种由光敏剂和催化片段组装而成的基于钌的二联体。在蓝光 LED 的照射下，并在电子受体存在的情况下，该配合物能够催化选择性的硫醚氧化，涉及一个氧原子从水中转移到底物上。电化学和光物理研究强调了质子耦合电子转移（PCET）以获得高价态氧化钌（IV）氧物种。

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作为光驱动硫化物氧化反应的光催化剂的双原子体系，以水为唯一的氧原子来源。

A dyad as photocatalyst for light-driven sulfide oxygenation with water as the unique oxygen atom source.

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