化学
离子液体
解吸
水溶液
氨基甲酸
吸收(声学)
氨基酸
甘氨酸
胆碱
羧酸盐
无机化学
离子键合
化学工程
色谱法
有机化学
碳纤维
聚合物
作者
Yuqi Zhang,Daofan Ma,Taotao Fu,Chunying Zhu,Youguang Ma
摘要
Abstract Efficient and low‐energy absorbents are always desirable to control the greenhouse effect. In this study, a novel amino polycarboxylate ionic liquid absorbent is constructed by introducing carboxylate groups. The CO 2 absorption‐desorption experiments in microchannel and macroscopic devices are performed to comprehensively investigate the performance of choline iminodiacetate ([Ch] 2 [IDA]). It is found that [Ch] 2 [IDA] could form soluble carbamic acid upon CO 2 absorption, thereby effectively preventing equipment blocking compared to choline glycine ([Ch][Gly]). The dual carboxyl groups in [IDA] 2− could generate a synergistic effect to weaken the negative inductive action of the amino group; consequently, [Ch] 2 [IDA] displays superior CO 2 absorption performance over [Ch][Gly]. Furthermore, [Ch] 2 [IDA] aqueous solution could release more CO 2 in the rapid desorption stage and effectively alleviate the sharp increase of energy consumption during the desorption termination period. Especially, it exhibits excellent cycling stability. Comparatively, [Ch] 2 [IDA] aqueous solution demonstrates great potential as a next‐generation efficient and low‐energy CO 2 absorbent.
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