Regulation mechanism of CO2 capture into the novel non-aqueous biphasic solvent: Solid-liquid phase change controllable
Author:
Funder
National Natural Science Foundation of China National Outstanding Youth Science Fund Project
Publisher
Elsevier BV
Reference43 articles.
1. Co-benefits of CO2 emission reduction from China’s clean air actions between 2013–2020;Shi;Nat. Commun.,2022
2. Carbon capture and storage technology by steel-making slags: recent progress and future challenges;Zhang;Chem. Eng. J.,2023
3. Recent advances in carbon capture storage and utilisation technologies: a review;Osman;Environ. Chem. Lett.,2021
4. Review of recent trends and various techniques for CO2 capture: special emphasis on biphasic amine solvents;Gautam;Fuel.,2023
5. En route to zero emissions for power and industry with amine-based post-combustion capture;Danaci;Environ. Sci. Tech.,2021
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1. Sulfolane-based biphasic solvent with high water-balance robustness and degradation resistance for industrial CO2 capture;Applied Energy;2024-07
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