Abstract
The rising levels of CO2 are unavoidably connected to climate change and its consequences on atmospheric temperatures throughout the world. Carbon capture and storage (CCS) is a dependable and practical method for capturing carbon emissions from industry. This article introduces the realms of direct air capture, post-combustion carbon capture, and pre-combustion carbon capture. Furthermore, the paper delves into the fascinating world of metal-organic frameworks (MOFs) materials with a high porosity, tunable structures, and exceptional adsorption capacities that can effectively absorb substantial quantities of CO2, qualifying them as promising candidates for reducing greenhouse gas emissions. The synthesis methods and performance evaluation of MOF materials concerning carbon capture were introduced. Some of the challenges associated with MOFs are also discussed, including their reduced stability at high temperatures and sensitivity to moisture. This paper provides a comprehensive overview of carbon capture technologies, highlighting the potential of MOFs while addressing current challenges and opportunities in the field.
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