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A General Machine-Learning Framework for High-Throughput Screening for Stable and Efficient RuO<sub>2</sub>-Based Acidic Oxygen Evolution Reaction Catalysts

Zhe Shang, Susu Zhao, Qian Dang, Fengmei Wang, Xiaoming Sun, Hui Li

2025ACS Catalysis10 citationsDOI

Abstract

Doping guest elements is an effective way to increase the activity and stability of RuO 2 catalysts in acidic oxygen evolution reaction (OER). However, due to the vastness of the doping space, it is challenging for either high-cost experiments or density functional theory (DFT) calculations to screen out the doped structures with the optimized catalytic performance. Herein, we reported a machine-learning (ML) framework that aims to realize high-throughput screening for both stability and activity of doped-RuO 2 acidic OER catalysts from monodoping to triple-doping at a low level of computational cost. Compared to the d-band theory and some other previous models, our ML model was constructed based on more general input features and realized higher prediction accuracy with mean absolute errors (MAEs) of 0.074, 0.142, and 0.082 eV for *OH, *O, and *OOH adsorption energies, respectively. Through the ML models, three doping structures Ru 41 Zn 7 O 96, Ru 41 Fe 3 Zn 4 O 96, and Ru 39 Co 1 Cu 4 Zn 4 O 96 were found to possess extraordinarily high stability and comparable or higher activity than previously reported OER catalysts. This work provided an efficient study paradigm in fields of material screening and a useful guide for experimental synthesis.

Topics & Concepts

CatalysisThroughputOxygen evolutionOxygenComputer scienceChemistryCombinatorial chemistryNanotechnologyMaterials scienceElectrochemistryPhysical chemistryOrganic chemistryWirelessOperating systemElectrodeMachine Learning in Materials ScienceElectrocatalysts for Energy ConversionCatalytic Processes in Materials Science
A General Machine-Learning Framework for High-Throughput Screening for Stable and Efficient RuO<sub>2</sub>-Based Acidic Oxygen Evolution Reaction Catalysts | Litcius