Tang, M.; Gamal, A.; Bhakta, A.K.; Jlassi, K.; Abdullah, A.M.; Chehimi, M.M. Carbon Dioxide Methanation Enabled by Biochar-Nanocatalyst Composite Materials: A Mini-Review. Catalysts2024, 14, 155.
Tang, M.; Gamal, A.; Bhakta, A.K.; Jlassi, K.; Abdullah, A.M.; Chehimi, M.M. Carbon Dioxide Methanation Enabled by Biochar-Nanocatalyst Composite Materials: A Mini-Review. Catalysts 2024, 14, 155.
Tang, M.; Gamal, A.; Bhakta, A.K.; Jlassi, K.; Abdullah, A.M.; Chehimi, M.M. Carbon Dioxide Methanation Enabled by Biochar-Nanocatalyst Composite Materials: A Mini-Review. Catalysts2024, 14, 155.
Tang, M.; Gamal, A.; Bhakta, A.K.; Jlassi, K.; Abdullah, A.M.; Chehimi, M.M. Carbon Dioxide Methanation Enabled by Biochar-Nanocatalyst Composite Materials: A Mini-Review. Catalysts 2024, 14, 155.
Abstract
Due to the ever increasing global warming, the scientific community is concerned with finding immediate solutions to reduce or utilize carbon dioxide (CO2) and convert it in useful compounds. In this context, the reductive process of CO2 methanation is well investigated and attractive due to its simplicity. However, it requires the development of highly active catalysts. In this mini-review, the focus is on biochar-immobilized nanocatalysts for CO2 methanation. We summarize the recent literature on the topic, reporting strategies for the design of biochar with immobilized nanocatalysts and their performances in CO2 methanation. We review the thermochemical transformation of biomass into biochar and its decoration with CO2 methanation catalysts. We also tackle direct methods of obtaining biochar-nanocatalysts, in one pot, from nanocatalyst precursor-impregnated biomass. We review the effect of the initial biomass nature, as well as the conditions that permit to tune the perfomances of the composite catalysts. Finally, we discuss the CO2 methanation performances and how they could be improved keeping in mind low operation cost and particularly sustainability.
Keywords
carbon dioxide utilization; methanation; reduction of CO2 emission; biochar; immobilized nanocatalysts
Subject
Chemistry and Materials Science, Applied Chemistry
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.