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Gold Segregation Improves Electrocatalytic Activity of Icosahedron Au@Pt Nanocluster: Insights from Machine Learning<sup>†</sup>

Dingming Chen, Zhuangzhuang Lai, Jiawei Zhang, Jianfu Chen, P. Hu, Haifeng Wang

2021Chinese Journal of Chemistry21 citationsDOI

Abstract

Main observation and conclusion As a common electrocatalytic system, Au‐Pt alloy particles are often prepared as Au‐core‐Pt‐shell (Au@Pt) to make full use of platinum. However, Au has a strong tendency to segregate to the outer surface, leading to the redistribution of the active sites. Unfortunately, the mechanism of such reconstruction and its effect on the electrocatalytic activity have not been thoroughly discussed, largely owing to the complexity of in‐situ characterization and computational modeling. Herein, by taking the 55‐atom Au 13 Pt 42 core‐shell nanocluster as an example, we utilized the neural network potential at density functional theory (DFT) level and the genetic algorithm to search the complex global configurational space. It turns out that it is thermodynamically favorable when all gold atoms are segregated to the surface and the shape of the cluster tends to change from icosahedron to a distorted amorphous structure (at a reduced core, DRC) with a unique gold distribution. Towards understanding the dynamic activity variation of oxygen reduction reaction (ORR) on this bimetallic Au@Pt system, oxygen adsorption energy calculations show that this reconstruction could not only increase the number of adsorption sites but also dramatically improve the ORR catalytic activity of each site, thus enhance the overall ORR reactivity.

Topics & Concepts

Bimetallic stripChemistryPlatinumDensity functional theoryRedistribution (election)CatalysisAmorphous solidAdsorptionCluster (spacecraft)Atom (system on chip)Reactivity (psychology)Chemical physicsPhysical chemistryCrystallographyComputational chemistryMedicineAlternative medicineLawPathologyComputer scienceBiochemistryPoliticsPolitical scienceEmbedded systemProgramming languageMachine Learning in Materials ScienceElectrocatalysts for Energy ConversionNanocluster Synthesis and Applications
Gold Segregation Improves Electrocatalytic Activity of Icosahedron Au@Pt Nanocluster: Insights from Machine Learning<sup>†</sup> | Litcius