All-climate and air-stable NASICON-Na2TiV(PO4)3 cathode with three-electron reaction toward high-performance sodium-ion batteries

Abstract

• The three-electron Na 2 TiV(PO 4 ) 3 delivers 187 mA h g −1 . • NTVP/C-G demonstrates ideal all-climate and air-stable performances. • In-situ XRD shows that NTVP involves Δ volume of 4.9%. • DFT calculations reveal low band gap and low energy barrier of 0.2 eV in NTVP. Developing all-climate and air-stable cathode with multi-electron redox reaction is intriguing and challenging for sodium-ion batteries (SIBs). Herein, we synthesize a NASICON (Na super-ionic conductor)-type Na 2 TiV(PO 4 ) 3 with an elaborately-engineered architecture, which shows ultrastable (1000 cycles at 40C) and ultrafast (up to 40C) three-sodium storage performances with an ultrahigh capacity of 187 mA h g −1 (equals to theoretical value) at 0.1C. Also, it displays good air-stability and high/low-temperature properties. A series of stepwise solid-solution, two-phase, solid-solution and two-phase mechanisms are involved and a small volume change of 4.9% is identified according to the operando X-ray diffraction results. Ex situ X-ray photoelectron spectroscopy reveals that V 4+ /V 3+ , Ti 4+ /Ti 3+ and V 3+ /V 2+ redox reactions are accompanied with three-sodium storage processes. The small band gap of 1.48 eV and fast 3D Na + diffusion pathways with low energy barrier of 0.2 eV calculated through first-principles calculations are responsible for the superior electrochemical performances. Our work prepares Na 2 TiV(PO 4 ) 3 with three-electron redox and high performance for future practical SIBs applications.