An organometallic approach for ultrathin SnO(x)Fe(y)S(z) plates and their graphene composites as stable anode materials for high performance lithium ion batteries.

@article{Xu2012AnOA,
  title={An organometallic approach for ultrathin SnO(x)Fe(y)S(z) plates and their graphene composites as stable anode materials for high performance lithium ion batteries.},
  author={Juan Xu and Kwonho Jang and Jaewon Choi and Jaewon Jin and Ji Hoon Park and Hae Jin Kim and Dong-Hwa Oh and Joung Real Ahn and Seung Uk Son},
  journal={Chemical communications},
  year={2012},
  volume={48 50},
  pages={6244-6}
}
Through an organometallic approach, ultrathin SnO(x)Fe(y)S(z) plates with ~2 nm single layer-thicknesses were obtained and their graphene composites showed very promising discharge capacities of up to 736 mA h g(-1) and excellent stabilities as anode materials in lithium ion batteries. 

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