A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling
The increasing concentration of atmospheric CO2 due to human activities has resulted in serious environmental issues such as global warming and calls for efficient ways to reduce CO2 from the environment. The conversion of CO2 into value-added compounds such as methane, formic acid, and methanol has...
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my.sunway.eprints.28872024-07-25T07:25:34Z http://eprints.sunway.edu.my/2887/ A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling Kalaimani, Markandan Revanthy, Sankaran Tiong, Yong Wei Humaira, Siddiqui * Khalid, Mohammad Malik, Sumira Rustagi, Sarvesh QC Physics TJ Mechanical engineering and machinery The increasing concentration of atmospheric CO2 due to human activities has resulted in serious environmental issues such as global warming and calls for efficient ways to reduce CO2 from the environment. The conversion of CO2 into value-added compounds such as methane, formic acid, and methanol has emerged as a promising strategy for CO2 utilization. Among the different techniques, the enzymatic approach based on the CO2 metabolic process in cells presents a powerful and eco-friendly method for effective CO2 conversion and upcycling. This review discusses the catalytic conversion of CO2 using single and multienzyme systems, followed by various chemo-enzymatic processes to produce bicarbonates, bulk chemicals, synthetic organic fuel and synthetic polymer. We also highlight the challenges and prospects for future progress in CO2 conversion via chemo-enzymatic processes for a sustainable solution to reduce the global carbon footprint. MDPI 2023 Article PeerReviewed Kalaimani, Markandan and Revanthy, Sankaran and Tiong, Yong Wei and Humaira, Siddiqui * and Khalid, Mohammad and Malik, Sumira and Rustagi, Sarvesh (2023) A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling. Catalysts, 13 (3). ISSN 2073-4344 https://doi.org/10.3390/catal13030611 10.3390/catal13030611 |
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QC Physics TJ Mechanical engineering and machinery Kalaimani, Markandan Revanthy, Sankaran Tiong, Yong Wei Humaira, Siddiqui * Khalid, Mohammad Malik, Sumira Rustagi, Sarvesh A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling |
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The increasing concentration of atmospheric CO2 due to human activities has resulted in serious environmental issues such as global warming and calls for efficient ways to reduce CO2 from the environment. The conversion of CO2 into value-added compounds such as methane, formic acid, and methanol has emerged as a promising strategy for CO2 utilization. Among the different techniques, the enzymatic approach based on the CO2 metabolic process in cells presents a powerful and eco-friendly method for effective CO2 conversion and upcycling. This review discusses the catalytic conversion of CO2 using single and multienzyme systems, followed by various chemo-enzymatic processes to produce bicarbonates, bulk chemicals, synthetic organic fuel and synthetic polymer. We also highlight the challenges and prospects for future progress in CO2 conversion via chemo-enzymatic processes for a sustainable solution to reduce the global carbon footprint. |
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Article |
author |
Kalaimani, Markandan Revanthy, Sankaran Tiong, Yong Wei Humaira, Siddiqui * Khalid, Mohammad Malik, Sumira Rustagi, Sarvesh |
author_facet |
Kalaimani, Markandan Revanthy, Sankaran Tiong, Yong Wei Humaira, Siddiqui * Khalid, Mohammad Malik, Sumira Rustagi, Sarvesh |
author_sort |
Kalaimani, Markandan |
title |
A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling |
title_short |
A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling |
title_full |
A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling |
title_fullStr |
A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling |
title_full_unstemmed |
A Review on the Progress in Chemo-Enzymatic Processes for CO2 Conversion and Upcycling |
title_sort |
review on the progress in chemo-enzymatic processes for co2 conversion and upcycling |
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MDPI |
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2023 |
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http://eprints.sunway.edu.my/2887/ https://doi.org/10.3390/catal13030611 |
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1805893829916622848 |