Hydroxyl and amino co-modified imidazole based ionic liquid functionalized TS-1 molecular sieve for efficient CO2 capture

Herein, an integrative solid adsorbent of [AHOPMIm]Cl with hydroxyl and amino groups functional sites modified TS-1 molecular sieve is designed and fabricated for efficient CO2 adsorption. The optimal [AHOPMIm]Cl/TS-1 exhibits 73% enhancement in CO2 adsorption capacity compared with the TS-1 molecul...

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Bibliographic Details
Published in:Separation and purification technology 2025-06, Vol.358, p.130393, Article 130393
Main Authors: Yin, Yue, Dong, Xianglan, Dai, Lina, Zhang, Enqi, Liu, Yanduo
Format: Article
Language:English
Subjects:
Amino modification
CO2 adsorption
Hydroxyl modification
Ionic liquid functionalization
TS-1 molecular sieve
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Summary:Herein, an integrative solid adsorbent of [AHOPMIm]Cl with hydroxyl and amino groups functional sites modified TS-1 molecular sieve is designed and fabricated for efficient CO2 adsorption. The optimal [AHOPMIm]Cl/TS-1 exhibits 73% enhancement in CO2 adsorption capacity compared with the TS-1 molecular sieve, even outperforming other state of the art adsorbent systems. The greatly improved CO2 adsorption capacity is mainly attributed to the strong adsorption of amino groups on the ionic liquids surface, which can form low-temperature stable amino ester species. Moreover, it is preserved that the hydroxyl groups on the surface of ionic liquids can form stable hydrogen bonds with oxygen atoms in CO2, and coordinate with amino groups to capture CO2 from different directions based on in situ DRIFTS and DFT. The porous TS-1 molecular sieve provides a structural basis for the uniform dispersion, effective support, and enhanced CO2 adsorption capacity of ionic liquids. A new design concept for constructing ionic liquid-based composite adsorbent with dual functional sites using TS-1 molecular sieve as a carrier is provided, and the avenues for efficient CO2 adsorption are paved.
ISSN:1383-5866
DOI:10.1016/j.seppur.2024.130393