Zirconia-free NaSICON solid electrolyte materials for sodium all-solid-state batteries

JOURNAL OF MATERIALS CHEMISTRY A(2023)

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Abstract
The growing demand for energy storage systems has sparked a race to build inexpensive and safer rechargeable batteries. All-solid-state sodium (Na)-ion batteries are a competitive alternative to their lithium (Li) analogs due to the lower cost of Na resources. The Na SuperIonic CONductors Na1+xZr2SixP3-xO12 0 <= x <= 3 (NZSP) are widely studied as solid electrolytes. However, synthesized NZSPs always contain monoclinic ZrO2 as the main impurity phase, which may lead to a lower Na-ion ionic conductivity within the solid-electrolyte layer. Here, we synthesize zirconia-free NZSP by engineering the quantity of zirconium (Zr) precursors. Synchrotron X-ray diffraction, Raman spectroscopy, and density functional theory simulations reveal zirconia-free NZSP. Impedance spectroscopy measurement of zirconia-free NZSP reveals an impressive total ionic conductivity of similar to 3.49 mS cm-1 with a bulk conductivity of similar to 10.05 mS cm-1 at room temperature, making it an excellent Na-ion conductor for all-solid-state batteries. Battery tests of symmetric cells confirm that zirconia-free NZSP electrolyte provides significantly improved perfomance. These results pave the way towards the synthesis optimization of impurity-free complex solid-electrolytes, which are important if solid-state batteries are to be commercialized. The growing demand for energy storage systems has sparked a race to build inexpensive and safer rechargeable all-solid-state batteries.
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Key words
sodium,solid all-solid-state,zirconia-free
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