Tsu Wu Chiang scite author profile

This work uses density functional theory calculations to analyze the energy barriers for oxygen migration into the basal and prismatic surfaces of zirconium. Specifically, the migration energy barriers between each octahedral site and tetrahedral site in the basal surface, prism surface, and the bulk are determined. The possible oxygen migration paths in each system are also analyzed. Oxygen has higher energy barriers to penetrating the basal surface than the prism surface. It also has a lower energy barrier to escape from basal surface than from the prism surface. This is consistent with the experimental observation that the prism plane of zirconium oxidizes more quickly than the basal plane.

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Interaction between voids and grain boundaries in UO2 by molecular-dynamics simulation

Chiang

Chernatynskiy

Sinnott

et al. 2014

Journal of Nuclear Materials

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Hydrogen Ion Sensing Properties of Niobium Oxide by RTA and Thickness effect

Chiang¹,

Lin²,

Shin³

et al. 2012

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Tsu Wu Chiang

Mechanisms of Zr surface corrosion determined via molecular dynamics simulations with charge-optimized many-body (COMB) potentials

Anisotropy in oxidation of zirconium surfaces from density functional theory calculations

Interaction between voids and grain boundaries in UO2 by molecular-dynamics simulation

Hydrogen Ion Sensing Properties of Niobium Oxide by RTA and Thickness effect

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