非晶态锆基金属有机框架的系统设计与功能化

Systematic design and functionalisation of amorphous zirconium metal-organic frameworks.

作者信息

Ma Nattapol, Kosasang Soracha, Theissen Jennifer, Gys Nick, Hauffman Tom, Otake Ken-Ichi, Horike Satoshi, Ameloot Rob

机构信息

Centre for Membrane Separations, Adsorption, Catalysis, and Spectroscopy (cMACS), KU Leuven Celestijnenlaan 200F 3001 Leuven Belgium

International Center for Young Scientists (ICYS), National Institute for Materials Science 1-1 Namiki Tsukuba Ibaraki 305-0044 Japan

出版信息

Chem Sci. 2024 Oct 7;15(42):17562-70. doi: 10.1039/d4sc05053c.

DOI:10.1039/d4sc05053c

PMID:39386911

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11457265/

Abstract

Controlling the structure and functionality of crystalline metal-organic frameworks (MOFs) using molecular building units and post-synthetic functionalisation presents challenges when extending this approach to their amorphous counterparts (aMOFs). Here, we present a new bottom-up approach for synthesising a series of Zr-based aMOFs, which involves linking metal-organic clusters with specific ligands to regulate local connectivity. In addition, we overcome the limitations of post-synthetic modifications in amorphous systems, demonstrating that homogeneous functionalisation is achievable even without regular internal voids. By altering the acidity of the side group, length, and degree of connectivity of the linker, we could control the porosity, proton conductivity, and mechanical properties of the resulting aMOFs.

摘要

当将使用分子构建单元和合成后功能化来控制晶体金属有机框架（MOF）的结构和功能的方法扩展到其非晶态对应物（aMOF）时面临挑战。在此，我们提出一种合成一系列基于锆的aMOF的新的自下而上的方法，该方法涉及将金属有机簇与特定配体连接以调节局部连接性。此外，我们克服了非晶态体系中合成后修饰的局限性，证明即使没有规则的内部空隙也可实现均匀功能化。通过改变侧基的酸度、连接体的长度和连接程度，我们能够控制所得aMOF的孔隙率、质子传导率和机械性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a86f/11526007/c152ea9fcbb4/d4sc05053c-f1.jpg

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非晶态锆基金属有机框架的系统设计与功能化

Systematic design and functionalisation of amorphous zirconium metal-organic frameworks.

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