Research Progress on CO2 Capture and Catalytic Conversion of Metal-Organic Frameworks Materials
Yang Lei, Yan Xiao, Xiaolin Chen, Wentao Zhang, Xue Yang, Yang Hu, De Fang
Abstract
The increase in CO2 emissions has been identified as a core driving factor in the intensification of the greenhouse effect. In order to achieve the dual-carbon vision, research on CO2 capture and its catalytic conversion is receiving growing attention. Due to the high chemical stability of CO2 itself, traditional separation technologies find it difficult to capture it onto catalysts. Currently, using hydrocarbons as carriers for catalytic reactions is the most common and efficient method. In recent years, metal-organic frameworks (MOFs) have shown their irreplaceable importance in CO2 capture and catalytic conversion due to their unique adjustable and controllable pore structures and multiple active sites. This study integrates various classification criteria of MOFs, proposes a cooperative mechanism between metal doping and functional groups, and also reveals the CO2 capture and catalytic conversion processes. In addition, we have conducted an in-depth discussion on the future development of continuous-flow microreactor technology and provided performance and property relationship diagrams for multiple MOF series, offering valuable reference material for future research in related fields.