Development and systematic evaluation of triamine‐based functional deep eutectic solvents for efficient <scp> CO ₂ </scp> capture

Abstract

Abstract The development of advanced absorbents for effectively capturing carbon dioxide is crucial in mitigating greenhouse gas emissions. This study introduced a series of deep eutectic solvents (DESs) for CO 2 capture and identified the most promising DESs with the stepwise screening method based on their absorption capacity, absorption rate, thermal stability, desorption efficiency, and apparent activation energy. Consequently, compared to the monoethanolamine (MEA), in the 30 wt% aqueous solutions, [1,2,3‐Triazolium chloride][diethylenetriamine] ([TrizCl][DETA]) and [Piperazinium chloride][diethylenetriamine] ([PzCl][DETA]) improved the CO 2 absorption capacities by 31% and 34%, absorption rates by 12% and 30%, and the amounts of CO 2 desorbed by 42% and 23%, as well as reduced the apparent activation energies by 9% and 28%, respectively. Meanwhile, their thermal stabilities (degradation onset temperatures, T onset ) were enhanced by 101% and 32%, respectively. The FTIR and NMR analyses were conducted to provide deeper insights into the chemical absorption mechanism of CO 2 by the DESs.

Affiliated Institutions

• China University of Petroleum, Beijing CN
• Luleå University of Technology SE
• State Key Laboratory of Heavy Oil
• Swerim SE

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