Issue 26, 2023

Effects of Lewis acid strength of monovalent coinage metals and zeolite frameworks on catalytic CO2 cycloaddition with ethylene oxide: A DFT study

Abstract

CO2 cycloaddition with epoxides is one of the potential routes to convert a waste product to more value-added products. In this work, the M06-L functional was employed to study the structure and electronic properties of complexes along the catalytic process in monovalent-exchanged zeolites. For the FAU zeolite, it was found that the greater Lewis acid character of Au(I) in FAU zeolite makes the Au(I)-FAU slightly more active than Cu(I)- and Ag(I)-FAU zeolites. Compared to the catalytic performance of Cu(II)-FAU zeolite (W. Sangthong and J. Sirijaraensre, J. Mol. Graph. Model., 2022, 117, 108321), these monovalent cations are still inappropriate catalysts for this reaction. In channel-type zeolites such as BEA and ZSM-5 zeolites, Au(I) is in the form of bidentate complex. The host–guest complementarity in the ZSM-5 framework makes Au(I) more catalytically active than the Au(I) in the FAU framework, due mainly to the greater stabilization of the transition state of CO2 cycloaddition. The catalytic performance of Au(I) in zeolites is in the order of ZSM-5 (Ea = 25.8 kcal mol−1) > BEA (Ea = 28.1 kcal mol−1) > FAU (Ea = 34.1 kcal mol−1). This study enhances the understanding of catalytic monovalent coinage cations and the effects of zeolite frameworks on the CO2 cycloaddition reaction with ethylene oxide.

Graphical abstract: Effects of Lewis acid strength of monovalent coinage metals and zeolite frameworks on catalytic CO2 cycloaddition with ethylene oxide: A DFT study

Supplementary files

Article information

Article type
Paper
Submitted
05 Apr 2023
Accepted
02 Jun 2023
First published
03 Jun 2023

New J. Chem., 2023,47, 12191-12199

Effects of Lewis acid strength of monovalent coinage metals and zeolite frameworks on catalytic CO2 cycloaddition with ethylene oxide: A DFT study

W. Sangthong and J. Sirijaraensre, New J. Chem., 2023, 47, 12191 DOI: 10.1039/D3NJ01581E

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