CO <sub>2</sub> Capture in Liquid Phase and Room-Temperature Release and Concentration Using Mechanical Power
Aimin Li, Yuanchu Liu, Ke Luo, Qing He
Abstract
Open AccessCCS ChemistryRESEARCH ARTICLES11 Apr 2024CO2 Capture in Liquid Phase and Room–Temperature Release and Concentration Using Mechanical Power Aimin Li, Yuanchu Liu, Ke Luo and Qing He Aimin Li , Yuanchu Liu , Ke Luo and Qing He https://doi.org/10.31635/ccschem.024.202404292 SectionsSupplemental MaterialAboutPDF ToolsAdd to favoritesDownload CitationsTrack Citations ShareFacebookTwitterLinked InEmail Development of advanced materials with high CO2 capture capacity and, inter alia, superior regenerability with low energy consumption (low–temperature CO2 release) remains highly desired yet challenging. Herein, we firstly report the precipitation–involved CO2 capture from ultradilute sources (e.g., exhaled gas and indoor air) and the reversible room–temperature CO2 release accelerated by mechanical power using a covalent organic superphane cage. This superphane based operating system enables CO2 in ultradilute gas (< 6%) to be concentrated up to 83%. As inferred from the control experiments and theoretical calculations, this proof–of–concept CO2 capture and concentration system with mechanical power–triggered CO2 release by the discrete organic cage could be rationalized by the formation of a six–membered ring transition state with relatively low energy barrier during the process of the adsorption and desorption of CO2 on the cage surface, along with the precipitation involved phase change. Download figure Download PowerPoint Previous articleNext article FiguresReferencesRelatedDetails Issue AssignmentNot Yet AssignedSupporting Information Copyright & Permissions© 2024 Chinese Chemical Society Downloaded 0 times PDF downloadLoading ...