Issue 1, 2019

Energy-based descriptors to rapidly predict hydrogen storage in metal–organic frameworks

Abstract

The low volumetric density of hydrogen is a major limitation to its use as a transportation fuel. Filling a fuel tank with nanoporous materials, such as metal–organic frameworks (MOFs), could greatly improve the deliverable capacity of these tanks if appropriate materials could be found. However, since MOFs can be made from many combinations of metal nodes, organic linkers, and functional groups, the design space of possible MOFs is enormous. Experimental characterization of thousands of MOFs is infeasible, and even conventional molecular simulations can be prohibitively expensive for large databases. In this work, we have developed a data-driven approach to accelerate materials screening and learn structure–property relationships. We report new descriptors for gas adsorption in MOFs derived from the energetics of MOF–guest interactions. Using the bins of an energy histogram as features, we trained a sparse regression model to predict gas uptake in multiple MOF databases to an accuracy within 3 g L−1. The interpretable model parameters indicate that a somewhat weak attraction between hydrogen and the framework is ideal for cryogenic storage and release. Our machine learning method is more than three orders of magnitude faster than conventional molecular simulations, enabling rapid exploration of large numbers of MOFs. As a case study, we applied the method to screen a database of more than 50 000 experimental MOF structures. We experimentally validated one of the top candidates identified from the accelerated screening, MFU-4l. This material exhibited a hydrogen deliverable capacity of 47 g L−1 (54 g L−1 simulated) when operating at storage conditions of 77 K, 100 bar and delivery at 160 K, 5 bar.

Graphical abstract: Energy-based descriptors to rapidly predict hydrogen storage in metal–organic frameworks

Supplementary files

Article information

Article type
Paper
Submitted
07 8 2018
Accepted
31 10 2018
First published
01 11 2018

Mol. Syst. Des. Eng., 2019,4, 162-174

Author version available

Energy-based descriptors to rapidly predict hydrogen storage in metal–organic frameworks

B. J. Bucior, N. S. Bobbitt, T. Islamoglu, S. Goswami, A. Gopalan, T. Yildirim, O. K. Farha, N. Bagheri and R. Q. Snurr, Mol. Syst. Des. Eng., 2019, 4, 162 DOI: 10.1039/C8ME00050F

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