Carbon Dioxide Conversion Upgraded by Host‐guest Cooperation between Nitrogen‐Rich Covalent Organic Framework and Imidazolium‐Based Ionic Polymer
Hong Zhong, Jinwei Gao, Rongjian Sa, Shuailong Yang, Zhicheng Wu, Ruihu Wang
Abstract
Abstract The chemical conversion of CO 2 into value‐added chemicals is one promising approach for CO 2 utilization. It is crucial to explore highly efficient catalysts containing task‐specific components for CO 2 fixation. Here, a host‐guest catalytic system was developed by integrating nitrogen‐rich covalent organic framework (TT‐COF) and imidazolium‐based ionic polymer (ImIP), which serve as hydrogen‐bonding donor and nucleophilic agent, respectively, for cooperatively facilitating the activation of the epoxides and subsequent CO 2 cycloaddition. The catalytic activity of the host‐guest system was remarkably superior to those of ImIP, TT‐COF, and their physical mixture. Furthermore, selective adsorption for CO 2 over N 2 rendered this catalytic system effective for the cycloaddition reaction of the simulated flue gas. The protocols for the unification of two catalytically active components provide new opportunities for the development of composite systems in multiple applications.