Issue 12, 2024

An unprecedented Cu6 cluster-based bimetallic MOF with multiple open sites for high CO2 capture and efficient CO2 conversion

Abstract

Based on the soft–hard acid–base theory, a novel bimetallic MOF (JLU-MOF108) has been successfully synthesized through a one-pot synthesis method. JLU-MOF108 is a mixed metal-based MOF, constructed from an unprecedented hexanuclear copper cluster (12-connected), indium metal center (4-connected) and a tetrazole-containing carboxylic acid ligand (3-connected), that exhibits a (3, 4, 12)-connected xag topology. In order to effectively enhance the CO2 capture and cycloaddition catalytic performance, abundant open metal sites (OMSs), Lewis basic sites (LBSs) and specific pore sizes have been implanted in the JLU-MOF108 structure. Fascinatingly, the expected mixed metal-based MOF material has a high OMS density and suitable pore volume. The results show that JLU-MOF108 exhibits high CO2 adsorption performance and excellent epichlorohydrin (ECH) catalysing capability in cycloaddition reactions. More importantly, the yield of ECH can reach up to 97%, which surpasses many reported MOF materials. Therefore, JLU-MOF108 can be a good candidate material for cycloaddition reactions and CO2 storage.

Graphical abstract: An unprecedented Cu6 cluster-based bimetallic MOF with multiple open sites for high CO2 capture and efficient CO2 conversion

Supplementary files

Article information

Article type
Research Article
Submitted
18 mar 2024
Accepted
08 may 2024
First published
10 may 2024

Inorg. Chem. Front., 2024,11, 3494-3502

An unprecedented Cu6 cluster-based bimetallic MOF with multiple open sites for high CO2 capture and efficient CO2 conversion

X. Yu, J. Gu, B. Tang, T. Xu, G. Li, Z. Chang and Y. Liu, Inorg. Chem. Front., 2024, 11, 3494 DOI: 10.1039/D4QI00692E

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