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Scientific Journal of Frontier Chemical Development

ISSN Print:2167-163X

ISSN Online:2167-1648

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Application of Metal-Organic Frameworks (MOFs) in Gas Adsorption and Separation

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Author: Zhiqing Dong

Abstract: Metal-Organic Frameworks (MOFs) have emerged as promising materials for gas adsorption and separation due to their exceptional surface area, tunable porosity, and versatility in functionalization. This paper explores the mechanisms of gas adsorption in MOFs, including physical adsorption, chemisorption, and synergistic effects, which contribute to their efficiency in capturing and separating gases. The applications of MOFs in key areas such as carbon dioxide capture, hydrogen storage, natural gas separation, and air purification are discussed, highlighting their potential to address pressing environmental and energy challenges. Additionally, the use of MOFs in selective gas separation, membranes, and adsorption-based technologies like Pressure Swing Adsorption (PSA) and Vacuum Swing Adsorption (VSA) is explored, emphasizing their advantages over traditional materials. Despite challenges related to scalability, stability, and cost, MOFs hold great promise for advancing gas separation technologies in the near future, offering more efficient, sustainable, and environmentally friendly solutions.

Keywords: Metal-Organic Frameworks; Gas Adsorption; Gas Separation; Carbon Dioxide Capture; Hydrogen Storage; Natural Gas Separation; Pressure Swing Adsorption

References:

[1] Chao Y, Jingjing Q, Anquan W, et al. Application of machine learning in MOFs for gas adsorption and separation[J]. Materials Research Express,2023,10(12):

[2] Debasis B, Haohan W, Qihan G, et al. Commensurate adsorption and gas separation in microporous MOFs[J]. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2013,246

[3] Tong L, Xiaoxia J, Hui C, et al. Tuning the Pore Environment of MOFs toward Efficient CH4/N2 Separation under Humid Conditions[J]. ACS applied materials & interfaces,2022,14(13):

[4] Parashar S, Corrente J N, Neimark V A. Unveiling non-monotonic deformation of flexible MOFs during gas adsorption: From contraction and softening to expansion and hardening[J]. Journal of colloid and interface science,2025,68688-95.

[5] Oh C, Nandy A, Yue S, et al. MOFs with the Stability for Practical Gas Adsorption Applications Require New Design Rules[J]. ACS applied materials & interfaces,2024,

[6] Dasgupta S, R.S. A, Maiti K P. Unifying mixed gas adsorption in molecular sieve membranes and MOFs using machine learning[J]. Separation and Purification Technology,2025,353(PC):128477-128477.

[7] Cho Y, Kulik J H. Improving gas adsorption modeling for MOFs by local calibration of Hubbard U parameters[J]. The Journal of chemical physics,2024,160(15):

[8] Cun G, Xiao-Bing M, Wen-Yu Y, et al. Construction of new multi-cage-based MOFs using flexible triangular ligands for efficient gas adsorption and separation[J]. Journal of Solid State Chemistry,2023,322

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