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温度诱导的金属有机框架结构多样性及其在硝基苯选择性传感和电催化析氧反应中的应用。

Temperature-induced structural diversity of metal-organic frameworks and their applications in selective sensing of nitrobenzene and electrocatalyzing the oxygen evolution reaction.

作者信息

Han Defang, Huang Kun, Li Xianglin, Peng Mengni, Jing Linhai, Yu Baoyi, Chen Zeqin, Qin Dabin

机构信息

Key Laboratory of Chemical Synthesis and Pollution Control of Sichuan Province, School of Chemistry and Chemical Engineering, China West Normal University Nanchong 637002 P. R. China

Key Laboratory of Urban Agriculture (North China), Ministry of Agriculture, College of Biological Sciences Engineering, Beijing University of Agriculture Beijing 102206 P. R. China.

出版信息

RSC Adv. 2019 Oct 22;9(58):33890-33897. doi: 10.1039/c9ra07031a. eCollection 2019 Oct 18.

DOI:10.1039/c9ra07031a
PMID:35528894
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9073648/
Abstract

Structural diversities are presented in four new Co-MOFs containing 1,5-bi(imidazolyl)anthracene and different dibenzobarrelene skeletons based on dicarboxylic acid, in which MOFs 1-3 exhibit 2D networks in a 4-connected node topology with the point symbol of {4·6}, while MOF 4 forms a 1D chain structure. It is clearly observed that the 2D-1D structural transformation of 2-4 has been realized by temperature modulated hydrothermal synthesis procedures from 120-160 °C, suggesting the key role of temperature for constructing MOFs. In addition, obvious π-π interactions between anthracene rings can be observed in the architectures of 1-3, which may favorably stabilize their 2D supramolecular networks. More importantly, fluorescence behaviors of 1-4 have been investigated in water among various nitro-aromatic compounds (NACs) and the results show that all samples exhibit high selectivity and fine sensitivity to nitrobenzene (NB) with fluorescence quenching, which is confirmed to be the result of electron transfer from the excited state of ligands to that of NB by density functional theory. Furthermore, MOFs 1-4 have been directly employed as electrocatalysts for the oxygen evolution reaction (OER), in which MOF 4 gives the best activity towards the OER among all as-synthesized samples with an overpotential of 398 mV at a current density of 10 mA cm and a low Tafel slope of 59 mV dec.

摘要

四种含有1,5-双(咪唑基)蒽和基于二元羧酸的不同二苯并桶烯骨架的新型钴基金属有机框架(Co-MOFs)呈现出结构多样性,其中MOF 1-3在具有{4·6}点符号的4连接节点拓扑结构中展现出二维网络,而MOF 4形成一维链结构。可以清楚地观察到,通过120-160°C的温度调制水热合成程序实现了2-4的二维到一维结构转变,这表明温度在构建MOFs中起着关键作用。此外,在1-3的结构中可以观察到蒽环之间明显的π-π相互作用,这可能有利于稳定它们的二维超分子网络。更重要的是,研究了1-4在水中对各种硝基芳烃化合物(NACs)的荧光行为,结果表明所有样品对硝基苯(NB)都表现出高选择性和良好的灵敏度,且伴有荧光猝灭,通过密度泛函理论证实这是配体激发态到NB的电子转移结果。此外,MOF 1-4已被直接用作析氧反应(OER)的电催化剂,其中MOF 4在所有合成样品中对OER表现出最佳活性,在电流密度为10 mA cm时过电位为398 mV,塔菲尔斜率低至59 mV dec。

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