Introducing artificial MOFs for improved machine learning predictions: Identification of top-performing materials for methane storage

In the field of materials science, the main objective of predictive models is to provide scientists with reliable tools for fast and accurate identification of new materials with exceptional properties. Over the last few years, machine learning methods have been extensively used for the study of the gas-adsorption in nanoporous materials as an efficient alternative of molecular simulations and experiments. In several cases, the accuracy of the constructed predictive models for unknown materials is extremely high. In this study, we explored the adsorption of methane by metal organic frameworks (MOFs) and concluded that many top-performing materials often deviate significantly from the known materials used for the training of the machine learning algorithms. In such cases, the predictions of the machine learning algorithms may not be adequately accurate. For lack of the required appropriate data, we put forth a simple approach for the construction of artificial MOFs with the desired superior properties. Incorporation of such data during the training phase of the machine learning algorithms improves the predictions outstandingly. In some cases, over 96% of the unknown top-performing materials are successfully identified.

Automated summary

Machine learning methods have been extensively used for gas-adsorption research in nanoporous materials, providing fast and accurate predictions. However, the accuracy of predictive models for unknown materials may be compromised due to insufficient training data. In this study, the incorporation of artificial materials data greatly improved the predictions of machine learning algorithms.