Aerosol-assisted rapid synthesis of SnS-C composite microspheres as anode material for Na-ion batteries

Abstract

SnS-C composite powders were prepared through one-pot spray pyrolysis for use as anode materials for Na-ion batteries. C microspheres with uniformly attached cubic-like SnS nanocrystals, which have an amorphous C coating layer, were formed at a preparation temperature of 900 A degrees C. The initial discharge capacities of the bare SnS and SnS-C composite powders at a current density of 500 mA center dot g(-1) were 695 and 740 mA center dot h center dot g(-1), respectively. The discharge capacities after 50 cycles and the capacity retentions measured from the second cycle of the bare SnS and SnS-C composite powders were 25 and 433 mA center dot h center dot g(-1) and 5 and 89%, respectively. The prepared SnS-C composite powders with high reversible capacities and good cycle performance can be used as Na-ion battery anode materials.