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钌(II)-联吡啶金属到配体电荷转移激发态辐射寿命的能量依赖性:ππ*(联吡啶)混合的影响。

Energy Dependence of the Ruthenium(II)-Bipyridine Metal-to-Ligand-Charge-Transfer Excited State Radiative Lifetimes: Effects of ππ*(bipyridine) Mixing.

作者信息

Thomas Ryan A, Tsai Chia Nung, Mazumder Shivnath, Lu I Chen, Lord Richard L, Schlegel H Bernhard, Chen Yuan Jang, Endicott John F

机构信息

‡Department of Chemistry, Wayne State University, Detroit, Michigan 48202, United States.

†Department of Chemistry, Fu-Jen Catholic University, New Taipei City 24205, Taiwan, R.O.C.

出版信息

J Phys Chem B. 2015 Jun 18;119(24):7393-406. doi: 10.1021/jp510949x. Epub 2015 Apr 10.

DOI:10.1021/jp510949x
PMID:25761649
Abstract

The variations in band shape with excited state energy found for the triplet metal to ligand charge transfer ((3)MLCT) emission spectra of ruthenium-bipyridine (Ru-bpy) chromophores at 77 K have been postulated to arise from excited state/excited state configurational mixing. This issue is more critically examined through the determination of the excited state energy dependence of the radiative rate constants (kRAD) for these emissions. Experimental values for kRAD were determined relative to known literature references for Ru-bpy complexes. When the lowest energy excited states are metal centered, kRAD can be anomalously small and such complexes have been identified using density functional theory (DFT) modeling. When such complexes are removed from the energy correlation, there is a strong (3)MLCT energy-dependent contribution to kRAD in addition to the expected classical energy cubed factor for complexes with excited state energies greater than 10 000 cm(-1). This correlates with the DFT calculations which show significant excited state electronic delocalization between a π(bpy-orbital) and a half-filled dπ*-(Ru(III)-orbital) for Ru-bpy complexes with (3)MLCT excited state energies greater than about 16 000 cm(-1). Overall, this work implicates the "stealing" of emission bandshapes as well as intensity from the higher energy, strongly allowed bpy-centered singlet ππ* excited state.

摘要

在77 K下,钌-联吡啶(Ru-bpy)发色团的三重态金属到配体电荷转移((3)MLCT)发射光谱中发现的能带形状随激发态能量的变化,据推测是由激发态/激发态构型混合引起的。通过测定这些发射的辐射速率常数(kRAD)对激发态能量的依赖性,对这个问题进行了更严格的研究。相对于Ru-bpy配合物的已知文献参考,确定了kRAD的实验值。当最低能量激发态以金属为中心时,kRAD可能异常小,并且已经使用密度泛函理论(DFT)建模识别出了这类配合物。当从能量关联中去除这类配合物时,除了对于激发态能量大于10 000 cm(-1)的配合物预期的经典能量立方因子外,还有一个强烈的(3)MLCT能量依赖性对kRAD有贡献。这与DFT计算相关,该计算表明对于具有(3)MLCT激发态能量大于约16 000 cm(-1)的Ru-bpy配合物,在π(bpy-轨道)和半填充的dπ*-(Ru(III)-轨道)之间存在显著的激发态电子离域。总体而言,这项工作暗示了从较高能量、强烈允许的以bpy为中心的单重态ππ*激发态“窃取”发射带形状以及强度。

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