对金属有机框架进行后合成修饰以实现高质子传导性

IF 1.7 4区 化学 Bulletin of the Korean Chemical Society Pub Date : 2023-11-13 DOI:10.1002/bkcs.12801
Amitosh Sharma, Seonghwan Lee, Jaewoong Lim, Myoung Soo Lah
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引用次数: 0

摘要

各种金属离子和有机连接体可用于生产具有不同功能、孔隙率和尺寸的金属有机框架(MOFs)。这种多样性引起了人们极大的研究兴趣,尤其是将 MOFs 用作燃料电池的质子导体。一种有效的方法是在 MOF 孔隙中引入客体分子。这些分子既可以作为质子载体,也可以通过潜在的氢键网络作为质子传导介质。本综述有条理地概述了历史上为实现 MOF 的超质子传导性而采用的主要方法。文章将这些方法系统地分为三大类:客体分子封装、金属配位位点调节和配体功能化。我们简明扼要地讨论了质子载体、导电介质和整个 MOF 框架的作用,强调了每种策略的应用意义。最后,我们以对这些策略的分类和概念理解为基础,对作为质子导体的 MOFs 的未来发展提出了见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Post-synthetic modifications in metal–organic frameworks for high proton conductivity

A myriad of metal ions and organic linkers can be used to produce metal–organic frameworks (MOFs) with varied functionalities, porosities, and dimensionalities. Such diversity has garnered significant research interest, particularly in leveraging MOFs as proton conductors for fuel cells. One effective approach involves introducing guest molecules into MOF pores. These molecules serve either as proton carriers or as proton-conducting media through potential hydrogen bonding networks. This review offers an organized overview of key methodologies historically employed to achieve superprotonic conductivity in MOFs. The article systematically categorizes these tactics into three primary groups: guest molecule encapsulation, modulation at metal-coordination sites, and ligand functionalization. We succinctly discuss the roles of proton carriers, conducting media, and the overall MOF framework, emphasizing the significance of each strategy's application. In conclusion, we provide insights into the future development of MOFs as proton conductors, rooted in the categorization and conceptual understanding of these strategies.

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来源期刊
Bulletin of the Korean Chemical Society
Bulletin of the Korean Chemical Society Chemistry-General Chemistry
自引率
23.50%
发文量
182
期刊介绍: The Bulletin of the Korean Chemical Society is an official research journal of the Korean Chemical Society. It was founded in 1980 and reaches out to the chemical community worldwide. It is strictly peer-reviewed and welcomes Accounts, Communications, Articles, and Notes written in English. The scope of the journal covers all major areas of chemistry: analytical chemistry, electrochemistry, industrial chemistry, inorganic chemistry, life-science chemistry, macromolecular chemistry, organic synthesis, non-synthetic organic chemistry, physical chemistry, and materials chemistry.
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