This study employed that the green-emitting Er3+-Yb3+:NaZr2(PO4)3, NASICON phosphors are very much promising in optical thermometry applications.
NaSICON materials are promising membranes for aqueous medium-temperature sodium-iodine batteries after optimization of their corrosion stability.
Our understanding of negative thermal expansion (NTE) in isotropic materials has matured in recent years. The synthesis of this understanding allows us to identify the likely mechanism of NTE in any new material without needing detailed calculations.
Multimethod study reveals distinct Na+ diffusion mechanisms and structural transitions in NASICON solid-state electrolytes for next-generation solid-state batteries.
The migration mechanism and energy barrier in NaSICON materials is investigated for a broad range of compositions using DFT.