文献详情
A Flexible and Wearable Lithium-Oxygen Battery with Record Energy Density achieved by the Interlaced Architecture inspired by Bamboo Slips
文献类型期刊
作者Liu, Qing-Chao[1];Liu, Tong[2];Liu, Da-Peng[3];Li, Zhong-Jun[4];Zhang, Xin-Bo[5];Zhang, Yu[6]
机构
2016
期刊名称ADVANCED MATERIALS影响因子和分区
通讯作者Zhang, Y (reprint author), Beihang Univ, Key Lab Bioinspired Smart Interfacial Sci & Techn, Minist Educ, Sch Chem & Environm, Beijing 100191, Peoples R China.
28
来源信息年:2016  卷:28  期:38  页码范围:8413-8418  
38
期刊信息ADVANCED MATERIALS影响因子和分区  ISSN:0935-9648
页码范围8413-8418
关键词bamboo slips; flexible; lithium-oxygen batteries; wearable
增刊正刊
摘要A flexible and wearable lithium-oxygen (air) battery inspired by Chinese bamboo slips is constructed. In this novel battery, cathodes and anodes are woven without an air diffusion layer and any outer packaging; besides, the woven structure allows oxygen to access the cathodes from both sides freely, endowing the battery with a record energy density of over 523 W h kg(-1).
收录情况SCIE(WOS:000386103700009)  EI(20164102898434)  PubMed(27479932)  
所属部门化学与环境学院
DOI10.1002/adma.201602800
学科化学综合;物理化学;材料科学:综合;纳米科技;物理:应用;物理:凝聚态物理
百度学术A Flexible and Wearable Lithium-Oxygen Battery with Record Energy Density achieved by the Interlaced Architecture inspired by Bamboo Slips
语言外文
ISSN0935-9648
被引频次15
人气指数78
浏览次数78
基金fundamental research funds for the central universities; National Natural Science Foundation of China [51522202, 51372007, 21301014]
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