化学
催化作用
碳纳米管
二聚体
钌
分子动力学
电子转移
纳米管
碳纤维
价键理论
化学物理
纳米技术
化学工程
计算化学
光化学
分子
有机化学
分子轨道
复合材料
材料科学
工程类
复合数
作者
Shaoqi Zhan,Mårten S. G. Ahlquist
摘要
Immobilization of molecular catalysts to electrode surfaces can improve the recyclability and electron transfer rates. The drawback is that most experimental techniques and theoretical methods are not applicable. Here we present results from a study of a ruthenium water oxidation catalyst [RuVO(bda)L2] in explicit water at a carbon nanotube water interface, forming the key O–O bond between two 128 atom catalysts, all fully dynamically. Our methodology is based on a recently developed empirical valence bond (EVB) model. We follow the key steps of the reaction including diffusion of the catalysts at the interface, formation of the prereactive dimer, and the bond formation between the two catalysts. On the basis of the calculated parameters, we compute the turnover frequency (TOF) at the experimental loading, in excellent agreement with the experiments. The key O–O bond formation was significantly retarded at the surface, and limiting components were identified that could be improved by catalyst modification.
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