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The glass phase in the grain boundary of Na 3 Zr 2 Si 2 PO 12 , created by gallium modulation.

Chenjie LouWenda ZhangJie LiuYanan GaoXuan SunJipeng FuYongchao ShiLigang XuHuajie LuoYongjin ChenXiang GaoXiao-Jun KuangLei SuMingxue Tang
Published in: Chemical science (2024)
Na 3 Zr 2 Si 2 PO 12 has been proven to be a promising electrolyte for solid-state sodium batteries. However, its poor conductivity prevents application, caused by the large ionic resistance created by the grain boundary. Herein, we propose an additional glass phase (Na-Ga-Si-P-O phase) to connect the grain boundary via Ga ion introduction, resulting in enhanced sodium-ion conduction and electrochemical performance. The optimized Na 3 Zr 2 Si 2 PO 12 -0.15Ga electrolyte exhibits Na + conductivity of 1.65 mS cm -1 at room temperature and a low activation energy of 0.16 eV, with 20% newly formed glass phase enclosing the grain boundary. Temperature-dependent NMR line shapes and spin-lattice relaxation were used to estimate the Na self-diffusion and Na ion hopping. The dense glass-ceramic electrolyte design strategy and the structure-dynamics-property correlation from NMR, can be extended to the optimization of other materials.
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