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Metal Hydrogen-Bonded Organic Frameworks as Open Lewis Acid Catalysts for Two Types of CO<sub>2</sub> Transformations

Hua Liu, Zhi-Wei Zheng, Xiang‐Yu Zhang, Qi Li, Jun-Jie Zhou, Kun Huang, Da‐Bin Qin

2024Inorganic Chemistry24 citationsDOI

Abstract

Efficient and multiple CO 2 utilization into high-value-added chemicals holds significant importance in carbon neutrality and industry production. However, most catalysis systems generally exhibit only one type of CO 2 transformation with the efficiency to be improved. The restricted abundance of active catalytic sites or an inefficient utilization rate of these sites results in the constraint. Consequently, we designed and constructed two metal hydrogen-bonded organic frameworks (M-HOFs) {[M 3 (L 3– ) 2 (H 2 O) 10 ]·2H 2 O} n (M = Co ( 1 ), Ni ( 2 ); L = 1-(4-carboxyphenyl)-1 H -pyrazole-3,5-dicarboxylic acid) in this research. 1 and 2 are well-characterized, and both show excellent stability. The networks connected by multiple hydrogen bonds enhance the structural flexibility and create accessible Lewis acidic sites, promoting interactions between the substrates and catalytic centers. This enhancement facilitates efficient catalysis for two types of CO 2 transformations, encompassing both cycloaddition reactions with epoxides and aziridines to afford cyclic carbonates and oxazolidinones. The catalytic activities (TON/TOF) are superior compared with those of most other catalysts. These heterogeneous catalysts still exhibited high performance after being reused several times. Mechanistic studies indicated intense interactions between the metal sites and substrates, demonstrating the reason for efficient catalysis. This marks the first instance on M-HOFs efficiently catalyzing two types of CO 2 conversions, finding important significance for catalyst design and CO 2 utilization.

Topics & Concepts

ChemistryCatalysisLewis acids and basesMetalHydrogenMetal-organic frameworkInorganic chemistryPolymer chemistryOrganic chemistryChemical engineeringAdsorptionEngineeringMetal-Organic Frameworks: Synthesis and ApplicationsCarbon dioxide utilization in catalysisChemical Synthesis and Reactions