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Rapid design of top-performing metal-organic frameworks with qualitative representations of building blocks

Yigitcan Comlek, Thang Duc Pham, Randall Q. Snurr, Wei Chen

2023npj Computational Materials34 citationsDOIOpen Access PDF

Abstract

Abstract Data-driven materials design often encounters challenges where systems possess qualitative (categorical) information. Specifically, representing Metal-organic frameworks (MOFs) through different building blocks poses a challenge for designers to incorporate qualitative information into design optimization, and leads to a combinatorial challenge, with large number of MOFs that could be explored. In this work, we integrated Latent Variable Gaussian Process (LVGP) and Multi-Objective Batch-Bayesian Optimization (MOBBO) to identify top-performing MOFs adaptively, autonomously, and efficiently. We showcased that our method (i) requires no specific physical descriptors and only uses building blocks that construct the MOFs for global optimization through qualitative representations, (ii) is application and property independent, and (iii) provides an interpretable model of building blocks with physical justification. By searching only ~1% of the design space, LVGP-MOBBO identified all MOFs on the Pareto front and 97% of the 50 top-performing designs for the CO 2 working capacity and CO 2 /N 2 selectivity properties.

Topics & Concepts

Categorical variableBayesian optimizationComputer scienceMulti-objective optimizationConstruct (python library)Process (computing)Artificial intelligenceTheoretical computer scienceMachine learningProgramming languageOperating systemMetal-Organic Frameworks: Synthesis and ApplicationsMachine Learning in Materials ScienceCarbon dioxide utilization in catalysis
Rapid design of top-performing metal-organic frameworks with qualitative representations of building blocks | Litcius