A lithium–carbon nanotube composite for stable lithium anodes
Yalong WangYanbin ShenZhaolong DuXiaofeng ZhangKe WangHaiyang ZhangTuo KangFeng GuoChenghao LiuXiaodong WuWei LüLiwei Chen
Abstract
Li metal has been considered as the ultimate anode material for high-density electrochemical energy storage technology because of its extremely high specific capacity (3860 mAh g−1), lowest redox potential, and ability to enable battery chemistries with lithium free cathode materials.
Metrics
Citation History
Topics
Related Documents
Highly stable SiOx/multiwall carbon nanotube/N-doped carbon composite as anodes for lithium-ion batteries
Carbon-modified Cu foam for stable lithium metal composite anodes
Xun‐Lu LiJian BaoRui-Jie LuoChong‐Yu DuCui MaJie ZengXuan XuZhe QianZhe MeiXinyang YueYong‐Ning Zhou
Carbon Nanotube Anodes for Lithium Ion Batteries
Ryne P. RaffaelleThomas GennettJeff MaranchiPrashant N. KumtaAloysius F. HeppMichael J. HebenAnne C. DillonK Jones
A multifunctional subassembly of carbon nanotube paper for stable lithium metal anodes
Muqin WangZhongmin RenZhenlian ChenHuan LinJingkun YanZhaoxin LuShuaishuai ChenHua LiYan ShenMing XieMingkui WangDeyu Wang
Lithium zinc/lithium iodide composite modified layer toward highly stable lithium metal anodes
Xia LiXiaolin YanYinggan ZhangHualong WuShiyu ZhangXiaoqing ChangBaisheng SaLiang LinQing LuoLaisen WangDong‐Liang PengQingshui Xie