First Principles Calculations of Hydrogen Evolution Reaction and Proton Migration on Stepped Surfaces of SrTiO<sub>3</sub>-Reference-Cited by-同舟云学术

First Principles Calculations of Hydrogen Evolution Reaction and Proton Migration on Stepped Surfaces of SrTiO₃

Published:2023-01-11 Issue:10 Volume:6 Page:
ISSN:2513-0390
Container-title:Advanced Theory and Simulations
language:en
Short-container-title:Advcd Theory and Sims

Author:

Sokolov Maksim¹²^ORCID,Mastrikov Yuri A.¹^ORCID,Zvejnieks Guntars¹^ORCID,Bocharov Dmitry¹^ORCID,Krasnenko Veera³^ORCID,Exner Kai S.²⁴⁵^ORCID,Kotomin Eugene A.¹⁶^ORCID

Affiliation:

1. Institute of Solid State Physics University of Latvia Kengaraga 8 Riga LV1063 Latvia

2. Theoretical Inorganic Chemistry University of Duisburg‐Essen Universitätsstraße 5 545141 Essen Germany

3. Institute of Physics University of Tartu W. Ostwaldi Str 1 Tartu 50411 Estonia

4. Cluster of Excellence RESOLV Ruhr‐University Bochum Universitätsstraße 150 47057 Bochum Germany

5. Center for Nanointegration (CENIDE) Duisburg‐Essen University of Duisburg‐Essen Carl‐Benz‐Straße 199 47057 Duisburg Germany

6. Physical Chemistry of Solids Max Planck Institute for Solid State Research Heisenbergstraße 1 70569 Stuttgart Germany

Abstract

AbstractRecent research suggests that photocatalytic activity toward water splitting of strontium titanate SrTiO3 (STO) is enhanced by creating multifaceted nanoparticles. To better understand the source of this activity, a previously designed model is used for two types of surfaces of this nanoparticle, flat and double‐stepped. Density functional theory calculations of water adsorption on these surfaces are performed to gain insight into water adsorption and proton migration processes, as well as thermodynamics of hydrogen evolution reaction within the framework of computational hydrogen electrode. It is concluded that ridges of single‐ and double‐stepped surfaces are nearly identical in terms of adsorption configurations and energetics. Also, it is demonstrated that protons have migration barriers lower than 0.7 eV and that surface morphology impacts catalytic activity toward hydrogen evolution reaction, with flat surface demonstrating higher catalytic activity.

Funder

Deutsche Forschungsgemeinschaft

Horizon 2020 Framework Programme

Publisher

Wiley

Subject

Multidisciplinary,Modeling and Simulation,Numerical Analysis,Statistics and Probability

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adts.202200619

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