An efficient and high capacity absorbent of amine-based amino acid-functionalized ionic liquid (IL) ([APmim][Gly]) was designed and prepared for CO2 capture in this work. The achieved capacity of [APmirn][Gly] was 1.23 mol CO2/mol IL (4.31 mol CO2/kg IL), which was much higher than that of the most existing dual functionalized ILs due to its low molecular weight. The largest weight loss temperature of [APmim][Gly] was found to be 370 degrees C, at that point, the weight loss was nearly 60% of its initial weight. Besides, [APmim][Gly] also owned a high regeneration ability even after multiple regenerations. In order to clarify the reaction mechanism of CO2 absorption into [APmim][Gly] solution, C-13 nuclear magnetic resonance (NMR) was carried out to analyze the species of [APmim][Gly] solution at different CO2 loadings. Different from the most reported mechanisms for CO2 capture into functionalized ILs, the reaction between [APmim][Gly] and CO2 was influenced by CO2 loadings. The reaction could divide into two stages. It was started with the reversible chemical reaction to form carbamate, and followed by the CO2 hydration reaction. At high CO2 loading, the production of carbamate was easy to be decomposed.

• 出版日期2016-4-1
• 单位华侨大学