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通过后功能化合成并应用于双光氧化还原金催化的异双金属金/钌配合物

Heterobimetallic Gold/Ruthenium Complexes Synthesized via Post-functionalization and Applied in Dual Photoredox Gold Catalysis.

作者信息

Bayer Lea, Birenheide Bernhard S, Krämer Felix, Lebedkin Sergei, Breher Frank

机构信息

Karlsruhe Institute of Technology (KIT), Institute of Inorganic Chemistry, Division Molecular Chemistry, Engesserstraße 15, 76131, Karlsruhe, Germany.

Karlsruhe Institute of Technology (KIT), Institute of Nanotechnology, Postfach 3630, 76021, Karlsruhe, Germany.

出版信息

Chemistry. 2022 Oct 12;28(57):e202201856. doi: 10.1002/chem.202201856. Epub 2022 Sep 1.

DOI:10.1002/chem.202201856
PMID:35924459
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9804866/
Abstract

The synthesis of heterobimetallic Au /Ru complexes of the general formula syn- and anti-[{AuCl}(L1∩L2){Ru(bpy) }][PF ] is reported. The ditopic bridging ligand L1∩L2 refers to a P,N hybrid ligand composed of phosphine and bipyridine substructures, which was obtained via a post-functionalization strategy based on Diels-Alder reaction between a phosphole and a maleimide moiety. It was found that the stereochemistry at the phosphorus atom of the resulting 7-phosphanorbornene backbone can be controlled by executing the metal coordination and the cycloaddition reaction in a different order. All precursors, as well as the mono- and multimetallic complexes, were isolated and fully characterized by various spectroscopic methods such as NMR, IR, and UV-vis spectroscopy as well as cyclic voltammetry. Photophysical measurements show efficient phosphorescence for the investigated monometallic complex anti-[(L1∩L2){Ru(bpy) }][PF ] and the bimetallic analogue syn-[{AuCl}(L1∩L2){Ru(bpy) }][PF ] , thus indicating a small influence of the {AuCl} fragment on the photoluminescence properties. The heterobimetallic Au /Ru complexes syn- and anti-[{AuCl}(L1∩L2){Ru(bpy) }][PF ] are both active catalysts in the P-arylation of aryldiazonium salts promoted by visible light with H-phosphonate affording arylphosphonates in yields of up to 91 %. Both dinuclear complexes outperform their monometallic counterparts.

摘要

报道了通式为顺式和反式 - [{AuCl}(L1∩L2){Ru(bpy) }][PF ] 的异双金属Au /Ru配合物的合成。双齿桥连配体L1∩L2是指由膦和联吡啶亚结构组成的P,N杂化配体,它是通过基于膦环和马来酰亚胺部分之间的狄尔斯 - 阿尔德反应的后官能化策略获得的。发现通过以不同顺序进行金属配位和环加成反应,可以控制所得7 - 磷杂降冰片烯主链磷原子处的立体化学。所有前体以及单金属和多金属配合物均通过各种光谱方法如NMR、IR和UV - vis光谱以及循环伏安法进行分离和全面表征。光物理测量表明,所研究的单金属配合物反式 - [(L1∩L2){Ru(bpy) }][PF ] 和双金属类似物顺式 - [{AuCl}(L1∩L2){Ru(bpy) }][PF ] 具有有效的磷光,因此表明{AuCl}片段对光致发光性质的影响较小。异双金属Au /Ru配合物顺式和反式 - [{AuCl}(L1∩L2){Ru(bpy) }][PF ] 都是可见光促进的芳基重氮盐与H - 膦酸酯的P - 芳基化反应中的活性催化剂,得到芳基膦酸酯,产率高达91%。两种双核配合物均优于其单金属对应物。

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