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分子内路易斯酸结合产生的远程静电效应影响钴卟啉配合物的氧化还原性质。

Long-range electrostatic effects from intramolecular Lewis acid binding influence the redox properties of cobalt-porphyrin complexes.

作者信息

Alvarez-Hernandez Jose L, Zhang Xiaowei, Cui Kai, Deziel Anthony P, Hammes-Schiffer Sharon, Hazari Nilay, Piekut Nicole, Zhong Mingjiang

机构信息

Department of Chemistry, Yale University New Haven CT 06520 USA

Department of Chemical and Environmental Engineering, Yale University New Haven CT 06520 USA

出版信息

Chem Sci. 2024 Apr 9;15(18):6800-6815. doi: 10.1039/d3sc06177a. eCollection 2024 May 8.

DOI:10.1039/d3sc06177a
PMID:38725508
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11077573/
Abstract

A Co-porphyrin complex (1) with an appended aza-crown ether for Lewis acid (LA) binding was synthesized and characterized. NMR spectroscopy and electrochemistry show that cationic group I and II LAs (, Li, Na, K, Ca, Sr, and Ba) bind to the aza-crown ether group of 1. The binding constant for Li is comparable to that observed for a free aza-crown ether. LA binding causes an anodic shift in the Co/Co couple of between 10 and 40 mV and also impacts the Co/Co couple. The magnitude of the anodic shift of the Co/Co couple varies linearly with the strength of the LA as determined by the p of the corresponding metal-aqua complex, with dications giving larger shifts than monocations. The extent of the anodic shift of the Co/Co couple also increases as the ionic strength of the solution decreases. This is consistent with electric field effects being responsible for the changes in the redox properties of 1 upon LA binding and provides a novel method to tune the reduction potential. Density functional theory calculations indicate that the bound LA is 5.6 to 6.8 Å away from the Co ion, demonstrating that long-range electrostatic effects, which do not involve changes to the primary coordination sphere, are responsible for the variations in redox chemistry. Compound 1 was investigated as a CO reduction electrocatalyst and shows high activity but rapid decomposition.

摘要

合成并表征了一种带有用于路易斯酸(LA)结合的氮杂冠醚的钴卟啉配合物(1)。核磁共振光谱和电化学表明,第I族和第II族阳离子路易斯酸(Li、Na、K、Ca、Sr和Ba)与1的氮杂冠醚基团结合。Li的结合常数与游离氮杂冠醚所观察到的相当。LA结合导致Co/Co电对出现10至40 mV的阳极位移,并且也影响Co/Co电对。Co/Co电对阳极位移的幅度随相应金属水配合物的p所确定的LA强度呈线性变化,二价阳离子产生的位移比一价阳离子大。Co/Co电对阳极位移的程度也随着溶液离子强度的降低而增加。这与电场效应导致LA结合后1的氧化还原性质变化一致,并提供了一种调节还原电位的新方法。密度泛函理论计算表明,结合的LA与Co离子相距5.6至6.8 Å,表明不涉及初级配位球变化的远程静电效应是氧化还原化学变化的原因。对化合物1作为CO还原电催化剂进行了研究,其显示出高活性但快速分解。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/efdd/11077573/6023762aa8a9/d3sc06177a-f6.jpg
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