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异金属钴(II)杯[6]芳烃和杯[8]芳烃:合成、结构与电化学活性

Heterometallic cobalt(ii) calix[6 and 8]arenes: synthesis, structure and electrochemical activity.

作者信息

Ignaszak Anna, Patterson Nigel, O'Brien Connor, True Allison, Elsegood Mark R J, Prior Timothy J, Redshaw Carl

机构信息

Department of Chemistry, University of New Brunswick 30 Dineen Drive Fredericton NB E3B 5A3 Canada.

Chemistry Department, Loughborough University Loughborough Leicestershire LE11 3TU UK.

出版信息

RSC Adv. 2022 Apr 14;12(19):11672-11685. doi: 10.1039/d2ra01009g. eCollection 2022 Apr 13.

DOI:10.1039/d2ra01009g
PMID:35481098
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9010074/
Abstract

Heterometallic cobalt -butylcalix[6 and 8]arenes have been generated from the reaction of lithium reagents (-BuLi or -BuOLi) or NaH with the parent calix[]arene and subsequent reaction with CoBr. The reverse route, involving the addition of generated Li[Co(O-Bu)] to -butylcalix[6 and 8]arene, has also been investigated. X-ray crystallography reveals the formation of complicated products incorporating differing numbers of cobalt and lithium or sodium centers, often with positional disorder, as well as, in some cases, the retention of halide. The electrochemical analysis revealed several oxidation events related to the subsequent oxidation of Co(ii) centers and the reduction of the metal cation at negative potentials. Moreover, the electrochemical activity of the phenol moieties of the parent calix[]arenes resulted in dimerized products or quinone derivatives, leading to insoluble oligomeric products that deposit and passivate the electrode. Preliminary screening for electrochemical proton reduction revealed good activity for a number of these systems. Results suggest that [CoNa(NCMe)(μ-O)(-butylcalix[6]areneH)Br]·7MeCN (6·7MeCN) is a promising molecular catalyst for electrochemical proton reduction, with a mass transport coefficient, catalytic charge transfer resistance and current magnitude at the catalytic turnover region that are comparable to those of the reference electrocatalyst (Co(ii)Cl).

摘要

通过锂试剂(-BuLi或-BuOLi)或NaH与母体杯芳烃反应,随后与CoBr反应,生成了异金属钴-丁基杯[6]芳烃和钴-丁基杯[8]芳烃。还研究了反向路线,即将生成的Li[Co(O-Bu)]添加到丁基杯[6]芳烃和丁基杯[8]芳烃中。X射线晶体学揭示了形成了包含不同数量钴和锂或钠中心的复杂产物,这些产物通常存在位置无序,并且在某些情况下还保留了卤化物。电化学分析揭示了与Co(ii)中心随后的氧化以及负电位下金属阳离子的还原相关的几个氧化事件。此外,母体杯芳烃酚部分的电化学活性导致二聚产物或醌衍生物的形成,从而产生不溶性低聚物产物,这些产物沉积并使电极钝化。对电化学质子还原的初步筛选表明,许多这些体系具有良好的活性。结果表明,[CoNa(NCMe)(μ-O)(-丁基杯[6]芳烃H)Br]·7MeCN(6·7MeCN)是一种有前景的用于电化学质子还原的分子催化剂,其在催化周转区域的传质系数、催化电荷转移电阻和电流大小与参考电催化剂(Co(ii)Cl)相当。

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