Theoretical isotherm equation for adsorption-induced structural transition on flexible metal–organic frameworks

Author:

Hiraide Shotaro1ORCID,Sakanaka Yuta1,Iida Yuya1,Arima Homare1,Miyahara Minoru T.1,Watanabe Satoshi1ORCID

Affiliation:

1. Department of Chemical Engineering, Kyoto University, Nishikyo, Kyoto 615-8510, Japan

Abstract

Flexible metal–organic frameworks (MOFs) exhibit an adsorption-induced structural transition known as “gate opening” or “breathing,” resulting in an S-shaped adsorption isotherm. This unique feature of flexible MOFs offers significant advantages, such as a large working capacity, high selectivity, and intrinsic thermal management capability, positioning them as crucial candidates for revolutionizing adsorption separation processes. Therefore, the interest in the industrial applications of flexible MOFs is increasing, and the adsorption engineering for flexible MOFs is becoming important. However, despite the establishment of the theoretical background for adsorption-induced structural transitions, no theoretical equation is available to describe S-shaped adsorption isotherms of flexible MOFs. Researchers rely on various empirical equations for process simulations that can lead to unreliable outcomes or may overlook insights into improving material performance owing to parameters without physical meaning. In this study, we derive a theoretical equation based on statistical mechanics that could be a standard for the structural transition type adsorption isotherms, as the Langmuir equation represents type I isotherms. The versatility of the derived equation is shown through four examples of flexible MOFs that exhibit gate opening and breathing. The consistency of the formula with existing theories, including the osmotic free energy analysis and intrinsic thermal management capabilities, is also discussed. The developed theoretical equation may lead to more reliable and insightful outcomes in adsorption separation processes, further advancing the direction of industrial applications of flexible MOFs.

Funder

Japan Society for the Promotion of Science London

MEXT | JST | Core Research for Evolutional Science and Technology

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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