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

Hide authors affiliations Show authors affiliations: 4 affiliations

Department of Electronic Chemistry, Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of Technology, Midori, Yokohama 226-8502, Japan |

Neutron Science Laboratory (KENS), Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK), Tsukuba, Ibaraki 305-0801, Japan |

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

Springer Nature

Nature Materials

scimago Q1

wos Q1

SJR: 14.204

CiteScore: 61.8

Impact factor: 38.5

ISSN: 14761122, 14764660

DOI: 10.1038/nmat3066

Copy DOI

PubMed ID: 21804556

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).

Found

14 citations

Zhu Lingyun

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h-index: 21

Anhui University

5 citations

Woldegbreal Bereket

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National Taiwan University of Science and Technology

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Ivankov Oleksandr

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Joint Institute for Nuclear Research

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Antipov Evgeny

DSc in Chemistry, professor, full member of the Russian Academy of Sciences

464 publications, 10 565 citations, 29 reviews

h-index: 49

Lomonosov Moscow State University

Skolkovo Institute of Science and Technology

1 citation

Blatov Vladislav

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307 publications, 14 729 citations, 90 reviews

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Samara State Technical University

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Materials Science

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Aksyonov Dmitry

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h-index: 20

Skolkovo Institute of Science and Technology

1 citation

Boev Anton

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PhD in Physics and Mathematics

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h-index: 13

Skolkovo Institute of Science and Technology

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Computer simulation

Density functional theory (DFT)

Lithium-ion batteries

Materials Science

1 citation

Voropaeva Daria

PhD in Chemistry

33 publications, 507 citations, 18 reviews

h-index: 13

Kurnakov Institute of General and Inorganic Chemistry of the Russian Academy of Sciences

Research interests

Green technologies

Lithium-ion batteries

Membrane materials

Sodium-ion batteries

1 citation

Morozov Anatolii

PhD in Chemistry, lecturer

47 publications, 1 495 citations

h-index: 17

Skolkovo Institute of Science and Technology

Lithium-ion batteries

Solid state chemistry

1 citation

Inozemtseva Alina

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PhD in Chemistry

17 publications, 563 citations, 4 reviews

h-index: 11

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Moscow Institute of Physics and Technology

Lomonosov Moscow State University

Research interests

Electrochemistry

Physical Chemistry

1 citation

Stavila Vitalie

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PhD in Chemistry, associate professor, associate member of the USA National Academy of Sciences

252 publications, 15 938 citations

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Sandia National Laboratories California

1 citation

Petla Ramesh

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PhD in Physics and Mathematics, associate professor, fellow of the Indian Academy of Sciences, Bangalore

30 publications, 1 473 citations

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University of Arkansas at Fayetteville

1 citation

Kireeva Natalia

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PhD in Chemistry

33 publications, 574 citations

h-index: 13

A.N. Frumkin Institute of Physical Chemistry and Electrochemistry of the Russian Academy of Sciences

Research interests

Electrochemical energy storage

Informatics of materials

Machine learning

Solid state chemistry

1 citation

Kolosnitsyn Vladimir

99 publications, 1 057 citations, 2 reviews

h-index: 14

Ufa Institute of Chemistry of the Ufa Federal Research Center of the Russian Academy of Sciences

1 citation

Chun-Chen Yang

293 publications, 9 036 citations, 72 reviews

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Ming Chi University of Technology

Chang Gung University

Chang Gung University of Science and Technology

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Institute of Crystallography

1 citation

Pezeshki Zahra

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35 publications, 316 citations, 386 reviews

h-index: 6

Moscow Power Engineering Institute

Research interests

Adaptive Neuro-Fuzzy Inference System (ANFIS)

Analog

Artificial Intelligence and Controls

Artificial Neural Networks (ANN)

Augmented Reality (AR)

Building Information Modeling (BIM)

Building materials

Computer Modelling and Simulation

Conduction

Construction Engineering and Management

Consumption reduction

Convection

Conversion and Storage Engineering

Data Mining

Deep Learning

Digital Signal Processing

Digital Twins (DTs)

Electrical Energy Systems

Electrical and Electronics

Finite Element Analysis

Finite Element Method

Finite Element Modeling

Inteligencia artificial

Internet of Things (IoTs)

Machine learning

Materials Science

Microbes and power generation

Mixed-Signal and RFIC Design/RFID

Power generation from microbes

Programming languages

Project management

Quantum Hydrogen

Radiation

Rechargeable Batteries

Renewable Energy Engineering

Solar cell semiconductor materials

Thermal Comfort

Thermal power engineering

Thermal resistance

Virtual Reality

Water consumption improvement

Water desalination

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Kamaya N. et al. A lithium superionic conductor // Nature Materials. 2011. Vol. 10. No. 9. pp. 682-686.

GOST all authors (up to 50) Copy

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.

RIS |

Cite this

RIS Copy

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

PB - Springer Nature

SP - 682-686

IS - 9

VL - 10

PMID - 21804556

SN - 1476-1122

SN - 1476-4660

ER -

BibTex |

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BibTex (up to 50 authors) Copy

@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}

}

MLA

Cite this

MLA Copy

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.

Publisher

Springer Nature

Journal

Nature Materials

scimago Q1

wos Q1

SJR

14.204

CiteScore

61.8

Impact factor

38.5

ISSN

14761122 (Print)

14764660 (Electronic)