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空间静电相互作用超越经典成键电子效应对增强铁卟啉 CO 还原性能的影响。

Through-Space Electrostatic Interactions Surpass Classical Through-Bond Electronic Effects in Enhancing CO Reduction Performance of Iron Porphyrins.

机构信息

Université Paris-Saclay, CNRS, Institut de Chimie Moléculaire et des Matériaux d'Orsay (ICMMO), 91405, Orsay, France.

Université Paris-Saclay, CEA, Institute for Integrative Biology of the Cell (I2BC), 91198, Gif-sur-Yvette, France.

出版信息

ChemSusChem. 2021 Mar 5;14(5):1308-1315. doi: 10.1002/cssc.202002718. Epub 2021 Jan 21.

DOI:10.1002/cssc.202002718
PMID:33387402
Abstract

In his pioneering work to unravel the catalytic power of enzymes, Warshel has pertinently validated that electrostatic interactions play a major role in the activation of substrates. Implementing such chemical artifice in molecular catalysts may help improve their catalytic properties. In this study, a series of tetra-, di-, and mono-substituted iron porphyrins with cationic imidazolium groups were designed. Their presence in the second coordination sphere helped stabilize the [Fe-CO ] intermediate through electrostatic interactions. It was found herein that the electrocatalytic overpotential is a function of the number of embarked imidazolium. Importantly, a gain of six orders of magnitude in turnover frequencies was observed going from a tetra- to a mono-substituted catalyst. Furthermore, the comparative study showed that catalytic performances trend of through-space electrostatic interaction, a first topological effect reported for iron porphyrins, outperforms the classical through-structure electronic effect.

摘要

在他开创性的研究中,沃歇尔阐明了酶的催化作用,有力地证明了静电相互作用在底物的激活中起着主要作用。在分子催化剂中实施这种化学技巧可能有助于提高它们的催化性能。在这项研究中,设计了一系列带有正离子咪唑基团的四、二和单取代铁卟啉。它们在第二配位球中的存在通过静电相互作用帮助稳定了[Fe-CO]中间物。本文发现,电催化过电势是嵌入咪唑数量的函数。重要的是,从四取代催化剂到单取代催化剂,观察到周转率频率提高了六个数量级。此外,比较研究表明,催化性能趋势是通过空间静电相互作用,这是首次报道的铁卟啉的拓扑效应,优于经典的通过结构的电子效应。

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