Capture and Conversion of CO2 from Ambient Air Using Ionic Liquid-Plasma Combination

Sukma Wahyu Fitriani; Takamasa Okumura; Kunihiro Kamataki; Kazunori Koga; Masaharu Shiratani; Pankaj Attri

doi:10.1007/s11090-024-10500-9

Capture and Conversion of CO₂ from Ambient Air Using Ionic Liquid-Plasma Combination

Sukma Wahyu Fitriani, Takamasa Okumura, Kunihiro Kamataki, Kazunori Koga, Masaharu Shiratani, Pankaj Attri

Research output: Contribution to journal › Article › peer-review

Abstract

Climate change is considered one of the main challenges in this century, and CO₂ emissions significantly cause it. Integrating CO₂ capture, storage, and conversion is proposed to solve this problem. 1-Butyl-3-methylimidazolium chloride ([Bmim]Cl) ionic liquid was employed to capture and store CO₂ from the air and subsequently converted into CO using non-thermal plasma. Moreover, we also tested the CO₂ capture and storage capacity of water from different sources, e.g., Milli-Q, deionized water, and tap water. [Bmim]Cl solution captured CO₂ from the air and then converted to CO after 24 h using plasma. In comparison with water (Milli-Q water, deionized water, and tap water), CO production was increased by 28.31% in the presence of water (Milli-Q water, deionized water, and tap water) + [Bmim]Cl. It suggests that this method could be a promising way to capture, store, and convert CO₂ from air at atmospheric pressure and room temperature as an effort to reduce carbon emission.

Original language	English
Pages (from-to)	2153-2162
Number of pages	10
Journal	Plasma Chemistry and Plasma Processing
Volume	44
Issue number	6
DOIs	https://doi.org/10.1007/s11090-024-10500-9
Publication status	Published - Nov 2024

All Science Journal Classification (ASJC) codes

General Chemistry
General Chemical Engineering
Condensed Matter Physics
Surfaces, Coatings and Films

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/s11090-024-10500-9

Cite this

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title = "Capture and Conversion of CO2 from Ambient Air Using Ionic Liquid-Plasma Combination",

abstract = "Climate change is considered one of the main challenges in this century, and CO2 emissions significantly cause it. Integrating CO2 capture, storage, and conversion is proposed to solve this problem. 1-Butyl-3-methylimidazolium chloride ([Bmim]Cl) ionic liquid was employed to capture and store CO2 from the air and subsequently converted into CO using non-thermal plasma. Moreover, we also tested the CO2 capture and storage capacity of water from different sources, e.g., Milli-Q, deionized water, and tap water. [Bmim]Cl solution captured CO2 from the air and then converted to CO after 24 h using plasma. In comparison with water (Milli-Q water, deionized water, and tap water), CO production was increased by 28.31% in the presence of water (Milli-Q water, deionized water, and tap water) + [Bmim]Cl. It suggests that this method could be a promising way to capture, store, and convert CO2 from air at atmospheric pressure and room temperature as an effort to reduce carbon emission.",

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author = "Fitriani, {Sukma Wahyu} and Takamasa Okumura and Kunihiro Kamataki and Kazunori Koga and Masaharu Shiratani and Pankaj Attri",

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AU - Fitriani, Sukma Wahyu

AU - Okumura, Takamasa

AU - Kamataki, Kunihiro

AU - Koga, Kazunori

AU - Shiratani, Masaharu

AU - Attri, Pankaj

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024.

PY - 2024/11

Y1 - 2024/11

N2 - Climate change is considered one of the main challenges in this century, and CO2 emissions significantly cause it. Integrating CO2 capture, storage, and conversion is proposed to solve this problem. 1-Butyl-3-methylimidazolium chloride ([Bmim]Cl) ionic liquid was employed to capture and store CO2 from the air and subsequently converted into CO using non-thermal plasma. Moreover, we also tested the CO2 capture and storage capacity of water from different sources, e.g., Milli-Q, deionized water, and tap water. [Bmim]Cl solution captured CO2 from the air and then converted to CO after 24 h using plasma. In comparison with water (Milli-Q water, deionized water, and tap water), CO production was increased by 28.31% in the presence of water (Milli-Q water, deionized water, and tap water) + [Bmim]Cl. It suggests that this method could be a promising way to capture, store, and convert CO2 from air at atmospheric pressure and room temperature as an effort to reduce carbon emission.

AB - Climate change is considered one of the main challenges in this century, and CO2 emissions significantly cause it. Integrating CO2 capture, storage, and conversion is proposed to solve this problem. 1-Butyl-3-methylimidazolium chloride ([Bmim]Cl) ionic liquid was employed to capture and store CO2 from the air and subsequently converted into CO using non-thermal plasma. Moreover, we also tested the CO2 capture and storage capacity of water from different sources, e.g., Milli-Q, deionized water, and tap water. [Bmim]Cl solution captured CO2 from the air and then converted to CO after 24 h using plasma. In comparison with water (Milli-Q water, deionized water, and tap water), CO production was increased by 28.31% in the presence of water (Milli-Q water, deionized water, and tap water) + [Bmim]Cl. It suggests that this method could be a promising way to capture, store, and convert CO2 from air at atmospheric pressure and room temperature as an effort to reduce carbon emission.

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