"Lasagna"-Structured SnS-TaS 2 Misfit Layered Sulfide for Capacitive and Robust Sodium-Ion Storage.

Stannous sulfide (SnS), a conversion-alloying type anode for sodium-ion batteries, is strong Na + storage activity, a low voltage platform, and high theoretical capacity. However, grain pulverization induced by intolerable volume change and phase aggregation causes quick capacity degradation and unsatisfactory rate capability. Herein, a novel "lasagna" strategy is developed by embedding a SnS layer into the interlayer of an electrochemically robust and electron-active TaS 2 to form a misfit layered (SnS) 1.15 TaS 2 superlattice. For Na + storage, the rationally designed (SnS) 1.15 TaS 2 anode exhibits high specific capacity, excellent rate capability, and robust cycling stability (729 mAh cm -3 at 15 C after 2000 cycles). Moreover, the as-assembled (SnS) 1.15 TaS 2 || Na 3 V 2 (PO 4 ) 3 full cells achieve robust and fast Na + storage performance with ≈100% capacity retention after 650 cycles at 15 C, which also demonstrates good low-temperature performance at -20 °C with a capacity retention of 75% and 2 C high-rate charge/discharge ability.