Department of Chemistry, Queen's University, Kingston, Ontario, Canada K7L 3N6.
Dalton Trans. 2011 Aug 21;40(31):7805-16. doi: 10.1039/c1dt10292c. Epub 2011 May 20.
Triarylboranes have recently emerged as a powerful new class of electron acceptors with great potential as optoelectronic materials. The empty p(z) orbital on the boron centre promotes strong charge-transfer transitions, leading to highly luminescent compounds with colors spanning the entire visible spectrum. Due to intense research efforts over the past decade, many examples now exist of organic molecules based on this structural motif. Only recently, however, have transition metal-containing triarylboranes been closely investigated. These compounds are capable of bright luminescence from a triplet excited state, and have been developed as efficient emissive materials for organic light-emitting diodes (OLEDs) as a result. In addition, their long-lived phosphorescence gives these materials potential as highly selective chemical sensors for small anions using time-gated detection, eliminating interference from background fluorescence. The research of the past several years has now led to a better understanding of the impact of the triarylboron group on the photophysical properties of metal complexes, which we expect will provide many opportunities for research into this class of functional phosphorescent materials.
三芳基硼最近成为一类新兴的、具有很大潜力的电子受体,有望成为光电材料。硼中心的空 p(z) 轨道促进了强烈的电荷转移跃迁,导致具有整个可见光谱颜色的高发光化合物。由于过去十年的研究努力,现在已经有许多基于这种结构基序的有机分子的例子。然而,只有最近才对含过渡金属的三芳基硼进行了密切研究。这些化合物能够从三重态激发态发出明亮的荧光,并已被开发为有机发光二极管 (OLED) 的高效发光材料。此外,它们长寿命的磷光使这些材料有可能成为使用时间门控检测的高选择性阴离子化学传感器,消除背景荧光的干扰。过去几年的研究现在使我们更好地了解三芳基硼基团对金属配合物光物理性质的影响,我们预计这将为这类功能磷光材料的研究提供许多机会。
