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内球重组对敏化TiO界面电荷分离态寿命的影响。

The effect of inner-sphere reorganization on charge separated state lifetimes at sensitized TiO interfaces.

作者信息

Kessinger M C, Brillhart C, Vaissier Welborn V, Morris A J

机构信息

Department of Chemsitry, Virginia Polytechnic and State University, Blacksburg, Virginia 24061, USA.

出版信息

J Chem Phys. 2020 Sep 28;153(12):124711. doi: 10.1063/5.0023591.

Abstract

Improving the efficiency of photo-electrocatalytic cells depends on controlling the rates of interfacial electron transfer to promote the formation of long-lived charge separated states. Ultimately, for efficient catalytic assemblies to see widespread implementation, repeated electron transfer in the absence of charge recombination needs to be realized. In this study, a series of manganese-based transition metal complexes known to undergo charge transfer-induced spin crossover are employed to study how significant increases in inner-sphere reorganization energy affect the rates of interfacial electron transfer. Each complex is characterized by transient spectroscopic and electrochemical methods to calculate the rate of electron transfer to a model chromophore anchored to the surface of a TiO film. Likewise, open-circuit voltage decay measurements were used to determine the voltage-dependent lifetime of injected electrons in TiO in the presence of each complex. To further characterize the rates of electronic recombination, density functional theory was used to calculate the inner-sphere and outer-sphere reorganization energy for each complex. These calculations were then combined with classical Marcus theory to determine the theoretical rate of back-electron transfer from the TiO conduction band. These results show that, in model complexes, a significant reduction in the recombination rate constant is achieved for complexes possessing a significant inner-sphere reorganization energy.

摘要

提高光电催化电池的效率取决于控制界面电子转移速率,以促进长寿命电荷分离态的形成。最终,为了使高效催化组件得到广泛应用,需要实现无电荷复合情况下的重复电子转移。在本研究中,使用了一系列已知会发生电荷转移诱导自旋交叉的锰基过渡金属配合物,来研究内球重组能的显著增加如何影响界面电子转移速率。通过瞬态光谱和电化学方法对每个配合物进行表征,以计算电子转移到锚定在TiO薄膜表面的模型发色团的速率。同样,开路电压衰减测量用于确定在每个配合物存在下TiO中注入电子的电压依赖性寿命。为了进一步表征电子复合速率,使用密度泛函理论计算每个配合物的内球和外球重组能。然后将这些计算结果与经典的马库斯理论相结合,以确定从TiO导带反向电子转移的理论速率。这些结果表明,在模型配合物中,对于具有显著内球重组能的配合物,复合速率常数显著降低。

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