Synthesis of Nanostructured Bismuth Sulfide with Controllable Morphology for Advanced Lithium/Sodium-Ion Storage

Trisodium citrate as a modulation additive to increase the cycling capability of a Bi2S3 cathode in a zinc-ion battery

3D Bi₂S₃ materials were prepared by the trisodium citrate (Na₃Cit)-assisted solvothermal method and applied to aqueous zinc ion batteries (AZIBs) to explore the effect of the electrode material morphology on the electrochemical performance. As the concentration of Na₃Cit increases, the 3D assembly morphology evolves from coral-like to sphere-like to snowflake-like structures. The electrochemical test results show that the electrode materials of various morphologies possess excellent cycle life, but the specific capacity varies greatly depending on the morphology. Impressively, the Bi₂S₃-1.2 electrode has the best electrochemical performance, with a capacity of 203.5 mA h g^-1 after 4000 charge/discharge cycles at 0.5 A g^-1. Furthermore, the Bi₂S₃-1.2 electrode delivers an ultralong lifetime of over 10 000 cycles with a capacity of 150.2 mA h g^-1 at 1 A g^-1. This work demonstrates a feasible route to prepare ultra-long cycle life AZIBs.