Issue 22, 2019, Issue in Progress

Computational investigation of the Mg-ion conductivity and phase stability of MgZr4(PO4)6

Abstract

Solid electrolyte materials exhibiting high Mg-ion conductivity are required to develop Mg-ion batteries. In this study, we focused on a Mg-ion-conducting solid phosphate based electrolyte, MgZr4(PO4)6 (MZP), and evaluated the ionic conductivity of NASICON-type and β-iron sulfate-type MgZr4(PO4)6 structures via density functional theory calculations. The calculations suggest that the migration energy of Mg is 0.63 eV for the NASICON-type structure and 0.71 eV for the β-iron sulfate-type one, and the NASICON-type structure has higher ion conductivity. Although the NASICON-type MZP structure has not been experimentally realised, there is only an energy difference of 14 meV per atom with respect to that of the β-iron sulfate-type structure. Therefore, in order to develop a synthesis method for the NASICON-type structure, we investigated pressure- and temperature-dependent variations in the free energy of formation using density functional perturbation theory calculations. The results suggest that the formation of the NASICON-type structure is disfavoured under the 0–2000 K and 0–20 GPa conditions.

Graphical abstract: Computational investigation of the Mg-ion conductivity and phase stability of MgZr4(PO4)6

Supplementary files

Article information

Article type
Paper
Submitted
21 Jan 2019
Accepted
08 Apr 2019
First published
23 Apr 2019
This article is Open Access
Creative Commons BY license

RSC Adv., 2019,9, 12590-12595

Computational investigation of the Mg-ion conductivity and phase stability of MgZr4(PO4)6

K. Nakano, Y. Noda, N. Tanibata, M. Nakayama, K. Kajihara and K. Kanamura, RSC Adv., 2019, 9, 12590 DOI: 10.1039/C9RA00513G

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