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Lee, Hyun-Wook
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Layered reduced graphene oxide with nanoscale interlayer gaps as a stable host for lithium metal anodes

Author(s)
Dingchang LinYayuan LiuZheng LiangLee, Hyun-WookJie SunHaotian WangKai YanJin XieYi Cui
Issued Date
2016-07
DOI
10.1038/nnano.2016.32
URI
https://scholarworks.unist.ac.kr/handle/201301/19978
Fulltext
http://www.nature.com/nnano/journal/vaop/ncurrent/full/nnano.2016.32.html
Citation
NATURE NANOTECHNOLOGY, v.11, pp.626 - 632
Abstract
Metallic lithium is a promising anode candidate for future high-energy-density lithium batteries. It is a light-weight material, and has the highest theoretical capacity (3,860 mAh g-1) and the lowest electrochemical potential of all candidates. There are, however, at least three major hurdles before lithium metal anodes can become a viable technology: uneven and dendritic lithium deposition, unstable solid electrolyte interphase and almost infinite relative dimension change during cycling. Previous research has tackled the first two issues, but the last is still mostly unsolved. Here we report a composite lithium metal anode that exhibits low dimension variation (∼20%) during cycling and good mechanical flexibility. The anode is composed of 7 wt% ‘lithiophilic’ layered reduced graphene oxide with nanoscale gaps that can host metallic lithium. The anode retains up to ∼3,390 mAh g-1 of capacity, exhibits low overpotential (∼80 mV at 3 mA cm-2) and a flat voltage profile in a carbonate electrolyte. A full-cell battery with a LiCoO2 cathode shows good rate capability and flat voltage profiles.
Publisher
NATURE PUBLISHING GROUP
ISSN
1748-3387

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