@inproceedings{1501233cc35e4d01ae5221d6178e849e,
title = "Cyclability of Si/TiN/C composite anode with high rate capability for lithium-ion batteries",
abstract = "The Si/TiN/C composite anode was synthesized by pyrolyzing the as-prepared nano-Si/TiN powder and polyvinyl chloride (PVC). It could be observed that amorphous carbon was formed onto the surface of the Si/TiN particles to be the Si/TiN/C-1 and Si/TiN/C-2 composites. In particular, at a higher rate of 1 C, the charge capacities decreased from 2439.34 mAh g-1 to 1634.74 mAh g-1 for the Si/TiN/C-2 composite after 100 cycles, with the little capacity loss of 0.33%. Consequentially, the continuous morphology and conductive network promoted the high rate capability and good cycle stability of Si/TiN/C composite anode.",
keywords = "Ammonia, Lithium-ion battery, Rate capability, Si/TiN/C composite",
author = "Jiguo Tu and Shuqiang Jiao and Jungang Hou and Hongmin Zhu",
year = "2013",
language = "English",
isbn = "9781118605813",
series = "TMS Annual Meeting",
pages = "773--779",
booktitle = "TMS 2013 - 142nd Annual Meeting and Exhibition, Supplemental Proceedings",
note = "142nd Annual Meeting and Exhibition: Linking Science and Technology for Global Solutions, TMS 2013 ; Conference date: 03-03-2013 Through 07-03-2013",
}
