Advanced Materials, volume 32, issue 26, pages 2001741

High‐Safety and High‐Energy‐Density Lithium Metal Batteries in a Novel Ionic‐Liquid Electrolyte

Hao Sun ¹

Guanzhou Zhu ¹

Yuanmin Zhu ²

Meng Chang Lin ³

Hui Chen ³

Yuan-Yao Li ^{1, 4}

Wei Hsuan Hung ^{1, 5}

Bo Zhou ⁶

Xi Wang ⁷

Yunxiang Bai ¹

Gu Meng ²

Cheng-Liang Huang ⁴

Hung-Chun Tai ⁴

Xintong Xu ¹

Michael Angell ¹

Jing-Jong Shyue ⁸

Hongjie Dai ¹

Show full list: 17 authors

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Department of ChemistryStanford University Stanford CA 94305 USA |

Department of Materials Science and Engineering Academy for Advanced Interdisciplinary StudiesSouthern University of Science and Technology Shenzhen Guangdong 518055 China |

College of Electrical Engineering and AutomationShandong University of Science and Technology Qingdao 266590 China |

⁴

Department of Chemical EngineeringNational Chung Cheng University Chiayi 62102 Taiwan |

⁵

Institute of Materials Science and EngineeringNational Central University Taoyuan 32001 Taiwan |

⁶

Chemistry and Chemical Engineering Guangdong Laboratory Shantou 515031 China |

⁷

Key Laboratory of Luminescence and Optical Information Ministry of Education, Department of Physics, School of ScienceBeijing Jiaotong University Beijing 100044 China |

⁸

Research Center for Applied SciencesAcademia Sinica Taipei 11529 Taiwan |

Publication type: Journal Article

Publication date: 2020-05-25

Wiley

Journal: Advanced Materials

scimago Q1

SJR: 9.191

CiteScore: 43.0

Impact factor: 27.4

ISSN: 09359648, 15214095

DOI: 10.1002/adma.202001741

Copy DOI

PubMed ID: 32449260

General Materials Science

Mechanical Engineering

Mechanics of Materials

Abstract

Rechargeable lithium metal batteries are next generation energy storage devices with high energy density, but face challenges in achieving high energy density, high safety, and long cycle life. Here, lithium metal batteries in a novel nonflammable ionic-liquid (IL) electrolyte composed of 1-ethyl-3-methylimidazolium (EMIm) cations and high-concentration bis(fluorosulfonyl)imide (FSI) anions, with sodium bis(trifluoromethanesulfonyl)imide (NaTFSI) as a key additive are reported. The Na ion participates in the formation of hybrid passivation interphases and contributes to dendrite-free Li deposition and reversible cathode electrochemistry. The electrolyte of low viscosity allows practically useful cathode mass loading up to ≈16 mg cm-2 . Li anodes paired with lithium cobalt oxide (LiCoO2 ) and lithium nickel cobalt manganese oxide (LiNi0.8 Co0.1 Mn0.1 O2 , NCM 811) cathodes exhibit 99.6-99.9% Coulombic efficiencies, high discharge voltages up to 4.4 V, high specific capacity and energy density up to ≈199 mAh g-1 and ≈765 Wh kg-1 respectively, with impressive cycling performances over up to 1200 cycles. Highly stable passivation interphases formed on both electrodes in the novel IL electrolyte are the key to highly reversible lithium metal batteries, especially for Li-NMC 811 full batteries.

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