Sodium-ion conduction in Na2Zn2TeO6 solid electrolytes

The ionic conduction in a novel solid sodium-ion conductor of Na2Zn2TeO6 (NZTO) is investigated from the point of view of defect chemistry. NZTO shows an ionic conductivity of 0.57 mS cm−1 at room temperature, and the grain bulk conductivity and the grain-boundary conductivity are individually measu...

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Bibliographic Details
Published in:Journal of power sources 2018-10, Vol.402, p.513-518
Main Authors: Wu, Jian-Fang, Wang, Qi, Guo, Xin
Format: Article
Language:English
Subjects:
Defect chemistry
Grain boundary
Grain bulk
Na2Zn2TeO6
Sodium-ion conductivity
Solid electrolyte
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Summary:The ionic conduction in a novel solid sodium-ion conductor of Na2Zn2TeO6 (NZTO) is investigated from the point of view of defect chemistry. NZTO shows an ionic conductivity of 0.57 mS cm−1 at room temperature, and the grain bulk conductivity and the grain-boundary conductivity are individually measured using the AC impedance spectroscopy at temperatures down to −30 °C. The grain-boundary conductivities are about two orders of magnitude lower than those of the grain bulk; such a phenomenon can be ascribed to the Schottky barrier at the grain boundaries of the NZTO electrolyte. The concentration and mobility of the charge carriers in the grain bulk are calculated from the grain bulk conductivity. The concentration and mobility of the charge carriers and the Schottky barrier height can be tuned by doping; the ionic conductivity of NZTO is enhanced to 0.83 mS cm−1 by the doping of 2.5 mol% Ga at the Zn sites, because the Ga-doping increases the concentration and mobility of the charge carriers, and lowers the Schottky barrier height. [Display omitted] •Solid Na2Zn2TeO6 electrolytes were sintered at temperatures of 800∼850 °C.•Sodium-ion conduction in the grain bulk and at grain boundaries was investigated.•The sodium-ion conductivity was enhanced to 0.83 mS cm-1 by Ga-doping.•Ga-doping enhanced the ionic conductivities of the grain bulk and grain boundaries.•The mechanisms for the enhancement of the ionic conductivity were analyzed.
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2018.09.048