Water adsorption and dissociation on Ni3 and Ni5 decorated Y- and Sc-stabilized zirconia: Insights from density functional theory investigation

Abstract

© 2019 The Japan Society of Vacuum and Surface Science. All rights reserved. In this work, water adsorption and dissociation on Ni3- and Ni5-decorated Y- and Sc-stabilized zirconia (YZO and ScZO respectively), were probed using planewave, pseudopotential-based density functional theory calculations, to assess water splitting and subsequent hydrogen evolution potential of these metal-on-zirconia structures. It is found that the strength of Ni cluster binding on zirconia depends on the size of the cluster, at least for Ni3 and Ni5, and on the nature of the stabilizing atom. The Ni3 and Ni5 clusters tend to bind more favorably on the Sc site of ScZO compared to that of the Y site of YZO. Water is found to adsorb strongly on Ni3-YZO, Ni3-ScZO, and Ni5-ScZO. Water dissociation barrier for both the first and second hydrogen atoms tends to decrease for larger Ni cluster, with the Ni5-YZO system giving the lowest energy barriers. With relatively fine dissociation barriers, such systems could potentially be tapped for electrocatalytic water dissociation reactions leading to hydrogen evolution. These results are of importance and could contribute significantly in the further search and design of electrocatalytic materials for water dissociation and eventual hydrogen evolution for sustainable hydrogen production. (Figure presented.).

Source or Periodical Title

e-Journal of Surface Science and Nanotechnology

Page

117-123

Document Type

Article

Subject

Density functional theory, Energy conversion, First-principles calculations, Solid oxide electrolysis cell, Water adsorption and dissociation

This document is currently not available here.

Share

COinS