High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids

© 2017 the Owner Societies. The effect of CO 2 absorption on the aromaticity and hydrogen bonding in ionic liquids is investigated. Five different ionic liquids with choline based cations and aprotic N-heterocyclic anions were synthesized. Purity and structures of the synthesized ionic liquids were...

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Main Authors: Bhattacharyya S., Filippov A., Shah F.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
Carbonic acid
Online Access:https://openrepository.ru/article?id=167940
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spelling ftneicon:oai:rour.neicon.ru:rour/167940 2023-05-15T15:52:53+02:00 High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids Bhattacharyya S. Filippov A. Shah F. 2017 https://openrepository.ru/article?id=167940 unknown Physical Chemistry Chemical Physics 46 31216 19 1463-9076 https://openrepository.ru/article?id=167940 SCOPUS14639076-2017-19-46-SID85036626114 Article 2017 ftneicon 2020-07-21T11:57:34Z © 2017 the Owner Societies. The effect of CO 2 absorption on the aromaticity and hydrogen bonding in ionic liquids is investigated. Five different ionic liquids with choline based cations and aprotic N-heterocyclic anions were synthesized. Purity and structures of the synthesized ionic liquids were characterized by 1 H and 13 C NMR spectroscopy. CO 2 capture performance was studied at 20 °C and 40 °C under three different pressures (1, 3, 6 bar). The IL [N 1,1,6,2OH ][4-Triz] showed the highest CO 2 capture capacity (28.6 wt%, 1.57 mol of CO 2 per mol of the IL, 6.48 mol of CO 2 per kg of the ionic liquid) at 20 °C and 1 bar. The high CO 2 capture capacity of the [N 1,1,6,2OH ][4-Triz] IL is due to the formation of carbonic acid (-OCO 2 H) together with carbamate by participation of the -OH group of the [N 1,1,6,2OH ] + cation in the CO 2 capture process. The structure of the adduct formed by CO 2 reaction with the IL [N 1,1,6,2OH ][4-Triz] was probed by using IR, 13 C NMR and 1 H- 13 C HMBC NMR experiments utilizing 13 C labeled CO 2 gas. 1 H and 13 C PFG NMR studies were performed before and after CO 2 absorption to explore the effect of cation-anion structures on the microscopic ion dynamics in ILs. The ionic mobility was significantly increased after CO 2 reaction due to lowering of aromaticity in the case of ILs with aromatic N-heterocyclic anions. Article in Journal/Newspaper Carbonic acid NORA (National aggregator of open repositories of Russian universities)
institution Open Polar
collection NORA (National aggregator of open repositories of Russian universities)
op_collection_id ftneicon
language unknown
description © 2017 the Owner Societies. The effect of CO 2 absorption on the aromaticity and hydrogen bonding in ionic liquids is investigated. Five different ionic liquids with choline based cations and aprotic N-heterocyclic anions were synthesized. Purity and structures of the synthesized ionic liquids were characterized by 1 H and 13 C NMR spectroscopy. CO 2 capture performance was studied at 20 °C and 40 °C under three different pressures (1, 3, 6 bar). The IL [N 1,1,6,2OH ][4-Triz] showed the highest CO 2 capture capacity (28.6 wt%, 1.57 mol of CO 2 per mol of the IL, 6.48 mol of CO 2 per kg of the ionic liquid) at 20 °C and 1 bar. The high CO 2 capture capacity of the [N 1,1,6,2OH ][4-Triz] IL is due to the formation of carbonic acid (-OCO 2 H) together with carbamate by participation of the -OH group of the [N 1,1,6,2OH ] + cation in the CO 2 capture process. The structure of the adduct formed by CO 2 reaction with the IL [N 1,1,6,2OH ][4-Triz] was probed by using IR, 13 C NMR and 1 H- 13 C HMBC NMR experiments utilizing 13 C labeled CO 2 gas. 1 H and 13 C PFG NMR studies were performed before and after CO 2 absorption to explore the effect of cation-anion structures on the microscopic ion dynamics in ILs. The ionic mobility was significantly increased after CO 2 reaction due to lowering of aromaticity in the case of ILs with aromatic N-heterocyclic anions.
format Article in Journal/Newspaper
author Bhattacharyya S.
Filippov A.
Shah F.
spellingShingle Bhattacharyya S.
Filippov A.
Shah F.
High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
author_facet Bhattacharyya S.
Filippov A.
Shah F.
author_sort Bhattacharyya S.
title High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
title_short High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
title_full High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
title_fullStr High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
title_full_unstemmed High CO 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
title_sort high co 2 absorption capacity by chemisorption at cations and anions in choline-based ionic liquids
publishDate 2017
url https://openrepository.ru/article?id=167940
genre Carbonic acid
genre_facet Carbonic acid
op_source SCOPUS14639076-2017-19-46-SID85036626114
op_relation Physical Chemistry Chemical Physics
46
31216
19
1463-9076
https://openrepository.ru/article?id=167940
_version_ 1766387976441430016

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