Photophysical Properties and Application of Transition Metal Complexes Having Arylborane Units

Bulletin of Japan Society of Coordination Chemistry Pub Date : 2016-01-01 DOI:10.4019/BJSCC.67.62

Eri Sakuda

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Abstract

In this review, we overview the recent research trends on the photophysical properties and its application of metal complexes having arylborane charge transfer unit(s). The vacant p-orbital on the boron atom (p(B)) in a triarylborane derivative plays important roles in determining the electronic structure and the photophysical properties of the derivative. Recent studies on the spectroscopic and excited-state properties of arylborane compounds indicated that the characteristic absorption and emission bands were ascribed essentially to the charge transfer (CT) transition between the p -orbital of the aryl group ( p (aryl)) and p(B) : p (aryl)-p(B) CT. By utilizing such characteristics of triarylborane derivatives, new and novel approaches toward tuning of the redox, spectroscopic, and excited-state properties of metal complexes have been explored through combining the p (aryl)-p(B) CT interaction in a triarylborane derivative with the metal-to-ligand charge transfer (MLCT), intramolecular charge transfer (ILCT) state and electron or energy transfer of a metal complex.

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芳硼烷基过渡金属配合物的光物理性质及应用

本文综述了芳基硼烷电荷转移单元金属配合物的光物理性质及其应用的最新研究进展。在三芳基硼烷衍生物中，硼原子(p(B))上的空p轨道对衍生物的电子结构和光物理性质起着重要的决定作用。最近对芳基硼烷类化合物的光谱和激发态性质的研究表明，其特征吸收和发射带主要归因于芳基(p(aryl))和p(B): p(aryl)-p(B) CT之间的电荷转移(CT)跃迁。利用三芳基硼烷衍生物的这些特性，通过将三芳基硼烷衍生物中的p(芳基)-p(B) CT相互作用与金属配合物的金属到配体的电荷转移(MLCT)、分子内电荷转移(ILCT)状态和电子或能量转移结合起来，探索了调整金属配合物的氧化还原、光谱和激发态性质的新方法。

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Bulletin of Japan Society of Coordination Chemistry

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