High Na+ Mobility in rGO Wrapped High Aspect Ratio 1D SbSe Nano Structure Renders Better Electrochemical Na+ Battery Performance.

We chose to understand the cyclic instability and rate instability issues in the promising class of Na+ conversion and alloying anodes with Sb2 Se3 as a typical example. We employ a synthetic strategy that ensures efficient rGO (reduced graphene oxide) wrapping over Sb2 Se3 material. By utilization of the minimum weight of additive (5 wt.% of rGO), we achieved a commendable performance with a reversible capacity of 550 mAh g-1 at a specific current of 100 mA g-1 and an impressive rate performance with 100 % capacity retention after high current cycling involving a 2 Ag-1 intermediate current step. The electrochemical galvanostatic intermittent titration technique (GITT) has been employed for the first time to draw a rationale between the enhanced performance and the increased mobility in the rGO wrapped composite (Sb2 Se3 -rGO) compared to bare Sb2 Se3 . GITT analysis reveals higher Na+ diffusion coefficients (approx. 30 fold higher) in the case of Sb2 Se3 -rGO as compared to bare Sb2 Se3 throughout the operating voltage window. For Sb2 Se3 -rGO the diffusion coefficients in the range of 8.0×10-15  cm2 s-1 to 2.2×10-12  cm2 s-1 were observed, while in case of bare Sb2 Se3 the diffusion coefficients in the range of 1.6×10-15  cm2 s-1 to 9.4×10-15  cm2 s-1 were observed.