A new so
lid鈥搇iquid鈥揼as鈥搒o
lid (SLGS) growth strategy has been exploited to prepare porous SnS nanorods directly on carbon hybrid nanostructure by using a sulfur-containing resin (s-resin) laden with crystal
line SnO
2 nanoparticles and subsequent calcination promoted the development of porous SnS nanorods growing on carbon. As an anode material in Li-ion batteries (LIBs), SnS nanorods/C hybrid materials show highly stable and high capacity retention rate, which suggest that the novel hybrid materials have alluring prospect for electrochemical energy storage app
lications.
Keywords:
SnS nanorods; hybrid materials; Li-ion batteries; energy storage; resin