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Toward Next-Generation Heterogeneous Catalysts: Empowering Surface Reactivity Prediction with Machine Learning

Xinyan Liu, Hong‐Jie Peng

2024Engineering21 citationsDOIOpen Access PDF

Abstract

Heterogeneous catalysis remains at the core of various bulk chemical manufacturing and energy conversion processes, and its revolution necessitates the hunt for new materials with ideal catalytic activities and economic feasibility. Computational high-throughput screening presents a viable solution to this challenge, as machine learning (ML) has demonstrated its great potential in accelerating such processes by providing satisfactory estimations of surface reactivity with relatively low-cost information. This review focuses on recent progress in applying ML in adsorption energy prediction, which predominantly quantifies the catalytic potential of a solid catalyst. ML models that leverage inputs from different categories and exhibit various levels of complexity are classified and discussed. At the end of the review, an outlook on the current challenges and future opportunities of ML-assisted catalyst screening is supplied. We believe that this review summarizes major achievements in accelerating catalyst discovery through ML and can inspire researchers to further devise novel strategies to accelerate materials design and, ultimately, reshape the chemical industry and energy landscape.

Topics & Concepts

Leverage (statistics)CatalysisBiochemical engineeringComputer scienceReactivity (psychology)ThroughputNanotechnologyProcess engineeringArtificial intelligenceMaterials scienceEngineeringChemistryMedicineTelecommunicationsAlternative medicineBiochemistryPathologyWirelessMachine Learning in Materials ScienceElectrocatalysts for Energy ConversionCatalytic Processes in Materials Science
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