Journal
JOURNAL OF CHEMICAL PHYSICS
Volume 152, Issue 9, Pages -Publisher
AMER INST PHYSICS
DOI: 10.1063/1.5142591
Keywords
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Funding
- National Key Research and Development Program of China [2018YFA0208600]
- National Science Foundation of China [21533001, 91745201]
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Yttria-stabilized zirconia (YSZ) is an important material with wide industrial applications particularly for its good conductivity in oxygen anion transportation. The conductivity is known to be sensitive to Y concentration: 8 mol. % YSZ (8YSZ) achieves the best performance, which, however, degrades remarkably under similar to 1000 degrees C working conditions. Here, using the recently developed SSW-NN method, stochastic surface walking global optimization based on global neural network potential (G-NN), we establish the first ternary Y-Zr-O G-NN potential by fitting 28 803 first principles dataset screened from more than 10(7) global potential energy surface (PES) data and explore exhaustively the global PES of YSZ at different Y concentrations. Rich information on the thermodynamics and the anion diffusion kinetics of YSZ is, thus, gleaned, which helps resolve the long-standing puzzles on the stability and conductivity of the 8YSZ. We demonstrate that (i) 8YSZ is the cubic phase YSZ with the lowest possible Y concentrations. It is thermodynamically unstable, tending to segregate into the monoclinic phase of 6.7YSZ and the cubic phase of 20YSZ. (ii) The O anion diffusion in YSZ is mediated by O vacancy sites and moves along the 100 direction. In 8YSZ and 10YSZ, despite different Y concentrations, their anion diffusion barriers are similar, similar to 1 eV, but in 8YSZ, the O diffusion distance is much longer due to the lack of O vacancy aggregation along the 112 direction. Our results illustrate the power of G-NN potential in solving challenging problems in material science, especially those requiring a deep knowledge on the complex PES. Published under license by AIP Publishing.
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