Nature Materials, volume 10, issue 9, pages 682-686
A lithium superionic conductor
Noriaki Kamaya
1
,
Kenji Homma
1
,
Yuichiro Yamakawa
1
,
Masaaki Hirayama
1
,
Ryoji Kanno
1
,
Masao Yonemura
2
,
Takashi Kamiyama
2
,
Yuki Kato
3
,
Shigenori Hama
3
,
Koji Kawamoto
3
,
Akio Mitsui
4
3
Battery Research Division, Toyota Motor Corporation, Higashifuji Technical Center, Susono, Shizuoka 410-1193, Japan
|
4
Material Engineering Management Division, Material Analysis Department, Toyota Motor Corporation, Toyota, Aichi 471-8572, Japan
|
Publication type: Journal Article
Publication date: 2011-07-31
Journal:
Nature Materials
Quartile SCImago
Q1
Quartile WOS
Q1
Impact factor: 41.2
ISSN: 14761122, 14764660
DOI:
10.1038/nmat3066
General Chemistry
Condensed Matter Physics
General Materials Science
Mechanical Engineering
Mechanics of Materials
Abstract
Batteries are a key technology in modern society. They are used to power electric and hybrid electric vehicles and to store wind and solar energy in smart grids. Electrochemical devices with high energy and power densities can currently be powered only by batteries with organic liquid electrolytes. However, such batteries require relatively stringent safety precautions, making large-scale systems very complicated and expensive. The application of solid electrolytes is currently limited because they attain practically useful conductivities (10(-2) S cm(-1)) only at 50-80 °C, which is one order of magnitude lower than those of organic liquid electrolytes. Here, we report a lithium superionic conductor, Li(10)GeP(2)S(12) that has a new three-dimensional framework structure. It exhibits an extremely high lithium ionic conductivity of 12 mS cm(-1) at room temperature. This represents the highest conductivity achieved in a solid electrolyte, exceeding even those of liquid organic electrolytes. This new solid-state battery electrolyte has many advantages in terms of device fabrication (facile shaping, patterning and integration), stability (non-volatile), safety (non-explosive) and excellent electrochemical properties (high conductivity and wide potential window).
Top-30
Citations by journals
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Journal of Materials Chemistry A
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Energy and Environmental Science
62 publications, 1.65%
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Chemical Engineering Journal
48 publications, 1.27%
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Journal of the American Chemical Society
47 publications, 1.25%
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Angewandte Chemie - International Edition
47 publications, 1.25%
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Angewandte Chemie
47 publications, 1.25%
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Nature Communications
46 publications, 1.22%
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Physical Chemistry Chemical Physics
46 publications, 1.22%
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Small
40 publications, 1.06%
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Scientific Reports
39 publications, 1.04%
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Electrochemistry
36 publications, 0.96%
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Journal of Alloys and Compounds
35 publications, 0.93%
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Inorganic Chemistry
33 publications, 0.88%
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Nano Letters
32 publications, 0.85%
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Nano Energy
31 publications, 0.82%
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RSC Advances
29 publications, 0.77%
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Citations by publishers
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1000
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Elsevier
994 publications, 26.39%
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American Chemical Society (ACS)
774 publications, 20.55%
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Wiley
655 publications, 17.39%
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Royal Society of Chemistry (RSC)
454 publications, 12.06%
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Springer Nature
286 publications, 7.59%
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The Electrochemical Society
86 publications, 2.28%
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Multidisciplinary Digital Publishing Institute (MDPI)
53 publications, 1.41%
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IOP Publishing
49 publications, 1.3%
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American Institute of Physics (AIP)
41 publications, 1.09%
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The Electrochemical Society of Japan
37 publications, 0.98%
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American Physical Society (APS)
35 publications, 0.93%
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Frontiers Media S.A.
32 publications, 0.85%
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American Association for the Advancement of Science (AAAS)
20 publications, 0.53%
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Ceramic Society of Japan
15 publications, 0.4%
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The Chemical Society of Japan
13 publications, 0.35%
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Taylor & Francis
13 publications, 0.35%
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Japan Institute of Metals and Materials
11 publications, 0.29%
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Chinese Physical Society
11 publications, 0.29%
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Cambridge University Press
10 publications, 0.27%
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OAE Publishing Inc.
8 publications, 0.21%
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Walter de Gruyter
6 publications, 0.16%
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Materials Research Society
6 publications, 0.16%
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Pleiades Publishing
6 publications, 0.16%
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Oxford University Press
6 publications, 0.16%
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World Scientific
5 publications, 0.13%
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Nonferrous Metals Society of China
5 publications, 0.13%
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Proceedings of the National Academy of Sciences (PNAS)
5 publications, 0.13%
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Tsinghua University Press
4 publications, 0.11%
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Korean Society of Industrial Engineering Chemistry
4 publications, 0.11%
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- We do not take into account publications without a DOI.
- Statistics recalculated only for publications connected to researchers, organizations and labs registered on the platform.
- Statistics recalculated weekly.
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Kamaya N. et al. A lithium superionic conductor // Nature Materials. 2011. Vol. 10. No. 9. pp. 682-686.
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Kamaya N., Homma K., Yamakawa Y., Hirayama M., Kanno R., Yonemura M., Kamiyama T., Kato Y., Hama S., Kawamoto K., Mitsui A. A lithium superionic conductor // Nature Materials. 2011. Vol. 10. No. 9. pp. 682-686.
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TY - JOUR
DO - 10.1038/nmat3066
UR - https://doi.org/10.1038/nmat3066
TI - A lithium superionic conductor
T2 - Nature Materials
AU - Kamaya, Noriaki
AU - Homma, Kenji
AU - Yamakawa, Yuichiro
AU - Hirayama, Masaaki
AU - Kanno, Ryoji
AU - Yonemura, Masao
AU - Kamiyama, Takashi
AU - Kato, Yuki
AU - Hama, Shigenori
AU - Kawamoto, Koji
AU - Mitsui, Akio
PY - 2011
DA - 2011/07/31 00:00:00
PB - Springer Nature
SP - 682-686
IS - 9
VL - 10
SN - 1476-1122
SN - 1476-4660
ER -
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@article{2011_Kamaya,
author = {Noriaki Kamaya and Kenji Homma and Yuichiro Yamakawa and Masaaki Hirayama and Ryoji Kanno and Masao Yonemura and Takashi Kamiyama and Yuki Kato and Shigenori Hama and Koji Kawamoto and Akio Mitsui},
title = {A lithium superionic conductor},
journal = {Nature Materials},
year = {2011},
volume = {10},
publisher = {Springer Nature},
month = {jul},
url = {https://doi.org/10.1038/nmat3066},
number = {9},
pages = {682--686},
doi = {10.1038/nmat3066}
}
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MLA
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Kamaya, Noriaki, et al. “A lithium superionic conductor.” Nature Materials, vol. 10, no. 9, Jul. 2011, pp. 682-686. https://doi.org/10.1038/nmat3066.