Affiliation:
1. Kemitek, Cégep de Thetford, 835 Rue Mooney, Thetford Mines, QC G6G 0A5, Canada
Abstract
Carbon dioxide (CO2) is recognized as the primary cause of global warming due to its greenhouse potential. It plays a significant role in contributing to the emissions arising from a variety of anthropogenic activities, such as energy production, transportation, the construction industry, and other industrial processes. Capturing and utilizing CO2 to mitigate its impact on the environment is, therefore, of significant importance. To do so, strategies such as net-zero strategies, deploying capture and storage technologies, and converting CO2 into useful products have been proposed. In this review, we focused our attention on the preparation and performance of polymeric and crystalline materials for efficient CO2 capture. More precisely, we examined MOFs, petroleum-based polymers (amine-based, polymeric ionic liquid, ionic polymer, conjugated macro/micro-cyclic polymer, and porous organic polymer) as well as bio-based polymers for CO2 capture. In brief, the present work aims to guide the reader on the available crafted polymeric and crystalline materials offering a promising avenue towards innovative carbon dioxide capture strategy.
Reference245 articles.
1. Contributions of natural systems and human activity to greenhouse gas emissions;Yue;Adv. Clim. Chang. Res.,2018
2. Olivier, J.G., Peters, J.A., and Janssens-Maenhout, G. (2012). Trends in Global CO2 Emissions: 2012 Report, Publications Office of the European Union.
3. Liotta, L.F., and Wu, H. (2024). CO2 Capture, Utilization and Storage: Catalysts Design. Catalysts, 14.
4. Recent progress in carbon dioxide (CO2) as feedstock for sustainable materials development: Co-polymers and polymer blends;Muthuraj;Polymer,2018
5. Enhancing CO2 capture through innovating monolithic graphene oxide frameworks;Jha;Environ. Res.,2024