Recent Advances of Carbon Capture in Metal–Organic Frameworks: A Comprehensive Review

Abstract The excessive emission of greenhouse gases, which leads to global warming and alarms the world, has triggered a global campaign for carbon neutrality. Carbon capture and sequestration (CCS) technology has aroused wide research interest as a versatile emission mitigation technology. Metal–organic frameworks (MOFs), as a new class of high‐performance adsorbents, hold great potential for CO 2 capture from large point sources and ambient air due to their ultra‐high specific surface area as well as pore structure. In recent years, MOFs have made great progress in the field of CO 2 capture and separation, and have published a number of important results, which have greatly promoted the development of MOF materials for practical carbon capture applications. This review summarizes the most recent advanced research on MOF materials for carbon capture in various application scenarios over the past six years. The strategies for enhancing CO 2 selective adsorption and separation of MOFs are described in detail, along with the development of MOF‐based composites. Moreover, this review also systematically summarizes the highly concerned issues of MOF materials in practical applications of carbon capture. Finally, future research on CO 2 capture by MOF materials is prospected.