离子液体
烟气
多孔性
吸附剂
金属有机骨架
催化作用
选择性
材料科学
多孔介质
化学工程
碳捕获和储存(时间表)
化学吸附
模块化设计
吸附
碳酸氢盐
化学
烟气脱硫
纳米技术
双功能
传质
碳纤维
多相催化
二氧化碳
离子键合
作者
Rishabh Dubey,Akshay Kulshrestha,Himani Goyal,Raj Kumar,Kamendra P. Sharma,Sanjog S. Nagarkar
出处
期刊:Small
[Wiley]
日期:2026-02-13
卷期号:22 (21): e14343-e14343
被引量:1
标识
DOI:10.1002/smll.202514343
摘要
ABSTRACT Integrated selective capture and conversion of CO 2 to high‐value products is a highly energy‐efficient and realistic strategy toward a carbon‐neutral future. Inspired by nature, we have rationally designed type‐III Porous Liquids (PLs) using carbonic anhydrase (CA) mimicking ZIF‐8 and Good's buffer‐based ionic liquid (IL) for highly efficient integrated selective capture and conversion of CO 2 under practical conditions. The PLs exhibit remarkable selectivity and uptake capacity for CO 2 , among the highest reported for ZIF‐8 based type‐III PLs. The superior capture performance is ascribed to the molecular sieving effect and retention of high porosity in PL, further aided by the fluid media enabling both physi‐ and chemisorption storage pathways and high mass transport. The PLs catalyse CO 2 hydration, and the pore‐encapsulated CO 2 and bicarbonate are in dynamic equilibrium. The captured CO 2 is subsequently converted to CaCO 3 in high yield. As against CA, the PLs are more tolerant to reaction conditions and showed better performance. Remarkably, PLs selectively capture and convert CO 2 from simulated flue gas (15% CO 2 ) and ambient air (0.04% CO 2 ), a highly desirable yet unexplored application. The study demonstrates PLs as a modular material for integrated CO 2 capture and catalytic conversion under practical conditions for a sustainable closed loop carbon economy.
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