Litcius/Paper detail

New Perspectives on CO<sub>2</sub>–Pt(111) Interaction with a High-Dimensional Neural Network Potential Energy Surface

Marcos del Cueto, Xueyao Zhou, Linsen Zhou, Yaolong Zhang, Bin Jiang, Hua Guo

2020The Journal of Physical Chemistry C47 citationsDOI

Abstract

CO oxidation on transition metal surfaces is not only a prototype for studying surface chemistry but also of critical importance in applications such as pollution control and fuel cells. The reverse process, the dissociation of CO2, is also key in the sequestration of this greenhouse gas. However, our understanding of the dynamics involved in these processes is still incomplete. Theoretical studies of surface dynamics have so far been largely hindered by the high computational costs of on-the-fly calculations. To overcome this bottleneck, we report here a high-dimensional potential energy surface (PES) for both the dissociative chemisorption and recombinative desorption of CO2 on Pt(111), by using a machine learning method. Trained with a large number of density functional points in a large configuration space, the multipurpose neural network PES accurately reproduces the geometry and energy of the stationary points along the CO2 reaction path on Pt(111), as well as the dynamical results obtained using the ab initio molecular dynamics method. In addition, we propose a new perspective on the chemical shape of the surface, which reveals the site specificity of the chemical barrier. This approach opens the door to accurate studies of these relevant reactions on surfaces, with a low computational cost, granting access to a more in-depth description of the chemical processes taking place in these systems.

Topics & Concepts

BottleneckChemisorptionPotential energy surfaceDissociation (chemistry)Chemical physicsReaction dynamicsArtificial neural networkDesorptionComputer scienceAb initioDensity functional theoryMolecular dynamicsChemical reactionChemistryMaterials scienceNanotechnologyBiological systemArtificial intelligenceMoleculeComputational chemistryPhysical chemistryAdsorptionBiologyOrganic chemistryEmbedded systemBiochemistryMachine Learning in Materials ScienceAdvanced Chemical Physics StudiesCatalytic Processes in Materials Science