Effects of O vacancies and N or Si substitutions on Li+ migration in Li3PO4 electrolytes from first principles

Yaojun A. Du and N. A. W. Holzwarth
Phys. Rev. B 78, 174301 – Published 4 November 2008
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Abstract

As a first step toward optimizing solid-state electrolyte materials, we have constructed realistic models of various types of isolated defects in crystalline Li3PO4 involving O vacancies and N and Si dopants, and have used first-principles calculational methods to study their effects on the production and migration of mobile Li ions. We find that mobile Li-ion vacancies are stabilized by removing oxygen from the lattice, which, in turn, causes the rebonding of nearby phosphate groups to form O3P-O-PO3 (POP) structures embedded in the crystal. In the presence of nitrogen in the system, the POP structures can be further stabilized by replacing the bridging oxygen with nitrogen. We examine the electronic and geometric structures of these stable POP and O3P-N-PO3 (PNP) defects which are prototypes of chain structures found in thin-film lithium phosphorus oxynitride (LiPON) electrolytes. We also find that mobile interstitial Li ions are stabilized by N or Si dopants substituting for O or P host ions and forming PO3N or SiO4 defects, respectively. In all of these cases, the defect not only stabilizes extrinsic mobile ions but also provides traps for the ions to escape into the bulk regions of the crystal by as much as 1.5 eV for the vacancies and 0.9 eV for the interstitials. On the other hand, migration barriers for diffusion steps near the defects are as small as 0.4–0.6 eV for the vacancies and 0.2–0.3 eV for the interstitials. Extrapolating our results to crystals with appreciable concentrations of defects, we find that our results compare favorably with experimental migration energies reported in the literature.

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  • Received 11 August 2008

DOI:https://doi.org/10.1103/PhysRevB.78.174301

©2008 American Physical Society

Authors & Affiliations

Yaojun A. Du* and N. A. W. Holzwarth

  • Department of Physics, Wake Forest University, Winston-Salem, North Carolina 27109, USA

  • *duy@wfu.edu
  • natalie@wfu.edu

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Issue

Vol. 78, Iss. 17 — 1 November 2008

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