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Machine-Learning-Accelerated DFT Conformal Sampling of Catalytic Processes

Thantip Roongcharoen, Giorgio Conter, Luca Sementa, Giacomo Melani, Alessandro Fortunelli

2024Journal of Chemical Theory and Computation14 citationsDOI

Abstract

Computational modeling of catalytic processes at gas/solid interfaces plays an increasingly important role in chemistry, enabling accelerated materials and process optimization and rational design. However, efficiency, accuracy, thoroughness, and throughput must be enhanced to maximize its practical impact. By combining interpolation of DFT energetics via highly accurate Machine-Learning Potentials with conformal techniques for building the training database, we present here an original approach (that we name Conformal Sampling of Catalytic Processes, CSCP), to accelerate and achieve an accurate and thorough sampling of novel systems by exporting existing information on a worked-out case. We use methanol decomposition (of interest in the field of hydrogen production and storage) as a test catalytic reaction. Starting from worked-out Pt-based systems, we show that after only two iterations of active-learning CSCP is able to provide reaction energy diagrams for a set of 7 diverse systems (Pd, Ni, Au, Ag, Cu, Co, Fe) leading to DFT-accuracy-level predictions. Cases exhibiting a change in adsorption sites and mechanisms are also successfully reproduced as tests of catalytic path modification. The CSCP approach thus offers itself as an operative tool to fully take advantage of accumulated information to achieve high-throughput sampling of catalytic processes.

Topics & Concepts

Computer scienceCatalysisInterpolation (computer graphics)Sampling (signal processing)Conformal mapThroughputChemistryArtificial intelligenceMathematicsTelecommunicationsFilter (signal processing)Motion (physics)WirelessMathematical analysisBiochemistryComputer visionMachine Learning in Materials ScienceCatalysis and Hydrodesulfurization StudiesElectrocatalysts for Energy Conversion
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