Membranes constructed with zero-dimension carbon quantum dots for CO2 separation

CO2 capture technology provides a straightforward and facile access to address the issue of climate change caused by CO2 emissions from human activities. Membranes separation as a robust strategy can selectively remove CO2 from natural gas and the flue gas of power plants with high economic and prac...

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Bibliographic Details
Published in:Journal of membrane science 2022-12, Vol.664, p.121086, Article 121086
Main Authors: Zhu, Yue, Zhang, Xinjing, Zhang, Liming, Hu, Linyan, Zhang, Fei, Wang, Yali, Ding, Yunjie, Zhu, Xuefeng, Yang, Weishen
Format: Article
Language:English
Subjects:
Carbon quantum dots (CQDs)
CO2 capture
CQD membrane
Gas separation
Zero-dimension carbon-based materials
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Summary:CO2 capture technology provides a straightforward and facile access to address the issue of climate change caused by CO2 emissions from human activities. Membranes separation as a robust strategy can selectively remove CO2 from natural gas and the flue gas of power plants with high economic and practical benefits. Herein, a novel separation membrane based on zero-dimension carbon quantum dots (CQDs) through a simple preparation process for CO2 capture was developed. The CQD membranes with thickness of 100–200 nm upon the substrate show high separation factor in gas separation. The optimal separation factors for CO2/N2 and CO2/CH4 are up to 81.5 and 94.3 at room temperature, respectively. The permeation process was closely associated with the adsorption and desorption of CO2 as well as the size sieving effect. The CQDs membrane represents an alternative and highly efficient method for CO2 capture. [Display omitted] •A novel membrane based on carbon quantum dots (CQDs) for CO2 capture was developed.•The selectivity for CO2/N2 and CO2/CH4 are up to 81.5 and 94.3, respectively.•The permeation was associated with the adsorption of CO2 and size sieving effect.•The CQD membrane is an alternative and highly efficient method for CO2 capture.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2022.121086