A review of encapsulated ionic liquids for CO2 capture

A review of encapsulated ionic liquids for CO2 capture

•Encapsulated ionic liquids are now used for CO2 capture applications due to hybrid characteristics of materials and ionic liquids.•Various methods can be used for the synthesis of the encapsulated ionic liquids.•The spherical morphology of encapsulated ionic liquids is observed in most cases.•Aprot...

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Bibliographic Details
Published in:Journal of molecular liquids Vol. 374; p. 121266
Main Authors: Hussain Solangi, Nadeem, Hussin, Farihahusnah, Anjum, Amna, Sabzoi, Nizamuddin, Ali Mazari, Shaukat, Mubarak, Nabisab Mujawar, Kheireddine Aroua, Mohamed, Siddiqui, M.T.H., Saeed Qureshi, Sundus
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2023
Subjects:
Characterization
CO2 selectivity
CO2 solubility
Encapsulated ionic liquids
Reaction kinetics
Regeneration studies
Synthesis methods
Characterization
CO2 solubility
CO2 selectivity
Synthesis methods
Reaction kinetics
Encapsulated ionic liquids
Regeneration studies
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Summary:•Encapsulated ionic liquids are now used for CO2 capture applications due to hybrid characteristics of materials and ionic liquids.•Various methods can be used for the synthesis of the encapsulated ionic liquids.•The spherical morphology of encapsulated ionic liquids is observed in most cases.•Aprotic Heterocyclic Anion (AHA) like ionic liquids are suited for the maximum absorption of CO2 performance.•The encapsulated ionic liquids overcome the problems of low absorption rate and difficulties in solvent regeneration. Ionic liquids (ILs) are well-known for their carbon dioxide (CO2) capture properties. The impregnation or encapsulation of various materials attracts applications for CO2 capture due to the hybrid characteristics of materials and ILs. ILs on their own are faced with the problem of high viscosity; however, their diluted use onto materials significantly reduces this problem. The low CO2 absorption rate and difficulties in solvent regeneration can also be overcome by using encapsulated ionic liquid (ENIL) systems. Currently, studies on CO2 capture using ENILs are still limited to the basic absorption behavior of the absorbent. This review aims to comprehensively evaluate the most recent literature available on ENILs for CO2 capture including preparation of ENILs, characterization, thier reaction kinetics, CO2 solubility, CO2 selectivity and regeneration studies. The manuscript also discusses the current research challenges, opportunities, and future prospects in the applications of ENILs for CO2 capture.
ISSN:0167-7322
1873-3166
DOI:10.1016/j.molliq.2023.121266