, том 8 , издание 4 , страницы 1701602

Rechargeable Solid‐State Li–Air and Li–S Batteries: Materials, Construction, and Challenges

Yijie Liu ¹

Ping He ¹

Haoshen Zhou ^{1, 2}

Скрыть аффилиации авторов Показать аффилиации авторов: 2 аффилиации

Center of Energy Storage Materials and Technology; College of Engineering and Applied Sciences; National Laboratory of Solid State Microstructures; and Collaborative Innovation Center of Advanced Microstructures; Nanjing University; Nanjing 210093 P. R. China

Нанкинский университет

Центр совместных инноваций передовых микроструктур

Energy Technology Research Institute; National Institute of Advanced Industrial Science and Technology (AIST); Umezono 1-1-1 Tsukuba 3058568 Japan |

Тип публикации: Journal Article

Дата публикации: 2017-09-27

Wiley

Advanced Energy Materials

scimago Q1

wos Q1

БС1

SJR: 8.378

CiteScore: 40.7

Impact factor: 26.0

ISSN: 16146832, 16146840

DOI: 10.1002/aenm.201701602

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General Materials Science

Renewable Energy, Sustainability and the Environment

Краткое описание

Nonaqueous Li–air and Li–S batteries are attracting considerable interest because of their outstanding theoretical capacities and energy densities. However, despite the substantial progress in their development, safety remains an issue because of the flammability of their organic electrolytes. Moreover, the electrolyte volatilization of Li–air batteries and “shuttle effect” in Li–S batteries seriously hinder their development. The use of solid-state Li–air and Li–S batteries is one of the best solutions. Nevertheless, many challenges remain in solid electrolytes, electrodes, and interfaces. In this review, a comprehensive discussion on the development of solid-state Li–air and Li–S batteries is provided. The discussion begins with introduction of the progress in solid electrolytes, including their ionic conductivities and chemical stabilities. It then moves on to the cathodes of both batteries and the interface between electrolytes and electrodes. The reaction process inside the cathode is also presented. Suggestions for the optimization of composite cathodes and modification of the electrode–electrolyte interface are provided in the end. Intensive effort is required for the development of solid-state Li–air and Li–S batteries in the future.

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Liu Y. et al. Rechargeable Solid‐State Li–Air and Li–S Batteries: Materials, Construction, and Challenges // Advanced Energy Materials. 2017. Vol. 8. No. 4. p. 1701602.

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Liu Y., He P., Zhou H. Rechargeable Solid‐State Li–Air and Li–S Batteries: Materials, Construction, and Challenges // Advanced Energy Materials. 2017. Vol. 8. No. 4. p. 1701602.

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TY - JOUR

DO - 10.1002/aenm.201701602

UR - https://doi.org/10.1002/aenm.201701602

TI - Rechargeable Solid‐State Li–Air and Li–S Batteries: Materials, Construction, and Challenges

T2 - Advanced Energy Materials

AU - Liu, Yijie

AU - He, Ping

AU - Zhou, Haoshen

PY - 2017

DA - 2017/09/27

PB - Wiley

SP - 1701602

IS - 4

VL - 8

SN - 1614-6832

SN - 1614-6840

ER -

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@article{2017_Liu,

author = {Yijie Liu and Ping He and Haoshen Zhou},

title = {Rechargeable Solid‐State Li–Air and Li–S Batteries: Materials, Construction, and Challenges},

journal = {Advanced Energy Materials},

year = {2017},

volume = {8},

publisher = {Wiley},

month = {sep},

url = {https://doi.org/10.1002/aenm.201701602},

number = {4},

pages = {1701602},

doi = {10.1002/aenm.201701602}

}

MLA

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MLA Скопировать

Liu, Yijie, et al. “Rechargeable Solid‐State Li–Air and Li–S Batteries: Materials, Construction, and Challenges.” Advanced Energy Materials, vol. 8, no. 4, Sep. 2017, p. 1701602. https://doi.org/10.1002/aenm.201701602.

Издатель

Wiley

Журнал

Advanced Energy Materials

scimago Q1

wos Q1

БС1

SJR

8.378

CiteScore

40.7

Impact factor

26.0

ISSN

16146832 (Print)

16146840 (Electronic)