Litcius/Paper detail

Sustained Hydrogen Spillover on Pt/Cu(111) Single‐Atom Alloy: Dynamic Insights into Gas‐Induced Chemical Processes

Kaixuan Gu, Sen Lin

2023Angewandte Chemie12 citationsDOI

Abstract

Abstract Hydrogen spillover, involving the surface migration of dissociated hydrogen atoms from active metal sites to the relatively inert catalyst support, plays a crucial role in hydrogen‐involved catalytic processes. However, a comprehensive understanding of how H atoms are driven to spill over from active sites onto the catalyst support is still lacking. Here, we examine the atomic‐scale perspective of the H spillover process on a Pt/Cu(111) single atom alloy surface using machine‐learning accelerated molecular dynamics calculations based on density functional theory. Our results show that when an impinging H 2 dissociates at an active Pt site, the Pt atom undergoes deactivation due to the dissociated hydrogen atoms that attach to it. Interestingly, collisions between H 2 and sticking H atoms facilitate H spillover onto the host Cu, leading to the reactivation of the Pt atom and the realization of a continuous H spillover process. This work underscores the importance of the interaction between gas molecules and adsorbates as a driving force in elucidating chemical processes under a gaseous atmosphere, which has so far been underappreciated in thermodynamic studies.

Topics & Concepts

Hydrogen spilloverHydrogenCatalysisChemical physicsChemistryDensity functional theoryHydrogen atomMoleculeAtom (system on chip)Spillover effectMolecular dynamicsMetalInert gasNanotechnologyMaterials scienceComputational chemistryOrganic chemistryComputer scienceMicroeconomicsEmbedded systemAlkylEconomicsCatalytic Processes in Materials ScienceAdvanced Chemical Physics StudiesMachine Learning in Materials Science
Sustained Hydrogen Spillover on Pt/Cu(111) Single‐Atom Alloy: Dynamic Insights into Gas‐Induced Chemical Processes | Litcius