Deep learning neural network potential for simulating gaseous adsorption in metal-organic frameworks

Abstract

This study proposes ab initio neural network force fields with physically motivated features to offer superior accuracy in describing adsorbate-adsorbent interactions of nonpolar (CO2) and polar (H2O and CO) molecules in metal-organic frameworks with open-metal sites. Effects of the neural network architecture and features are also investigated for developing accurate models.

Description

© 2022 The Author(s). cc-by-nc

Keywords

Citation

Yang, C.-T., Pandey, I., Trinh, D., Chen, C.-C., Howe, J.D., & Lin, L.-C.. 2022. Deep learning neural network potential for simulating gaseous adsorption in metal-organic frameworks. Materials Advances, 3(13). https://doi.org/10.1039/d1ma01152a

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