Li2O-reinforced solid electrolyte interphase on three-dimensional sponges for dendrite-free lithium deposition

Chao Shen; Huibo Yan; Jinlei Gu; Yuliang Gao; Jingjing Yang; Keyu Xie

doi:10.3389/fchem.2018.00517

Li₂O-reinforced solid electrolyte interphase on three-dimensional sponges for dendrite-free lithium deposition

Chao Shen, Huibo Yan, Jinlei Gu, Yuliang Gao, Jingjing Yang, Keyu Xie

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Lithium (Li) metal, with ultra-high theoretical capacity and low electrochemical potential, is the ultimate anode for next-generation Li metal batteries. However, the undesirable Li dendrite growth usually results in severe safety hazards and low Coulombic efficiency. In this work, we design a three-dimensional CuO@Cu submicron wire sponge current collector with high mechanical strength SEI layer dominated by Li₂O during electrochemical reaction process. The 3D CuO@Cu current collector realizes an enhanced CE of above 91% for an ultrahigh current of 10 mA cm^-2 after 100 cycles, and yields decent cycle stability at 5 C for the full cell. The exceptional performances of CuO@Cu submicron wire sponge current collector hold promise for further development of the next-generation metal-based batteries.

Original language	English
Article number	517
Journal	Frontiers in Chemistry
Volume	6
Issue number	NOV
DOIs	https://doi.org/10.3389/fchem.2018.00517
State	Published - 1 Nov 2018

Keywords

CuO@Cu
Current collector
Dendrite-free
Lithium anode
Submicron wire sponge

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10.3389/fchem.2018.00517

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title = "Li2O-reinforced solid electrolyte interphase on three-dimensional sponges for dendrite-free lithium deposition",

abstract = "Lithium (Li) metal, with ultra-high theoretical capacity and low electrochemical potential, is the ultimate anode for next-generation Li metal batteries. However, the undesirable Li dendrite growth usually results in severe safety hazards and low Coulombic efficiency. In this work, we design a three-dimensional CuO@Cu submicron wire sponge current collector with high mechanical strength SEI layer dominated by Li2O during electrochemical reaction process. The 3D CuO@Cu current collector realizes an enhanced CE of above 91% for an ultrahigh current of 10 mA cm-2 after 100 cycles, and yields decent cycle stability at 5 C for the full cell. The exceptional performances of CuO@Cu submicron wire sponge current collector hold promise for further development of the next-generation metal-based batteries.",

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author = "Chao Shen and Huibo Yan and Jinlei Gu and Yuliang Gao and Jingjing Yang and Keyu Xie",

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AU - Shen, Chao

AU - Yan, Huibo

AU - Gu, Jinlei

AU - Gao, Yuliang

AU - Yang, Jingjing

AU - Xie, Keyu

PY - 2018/11/1

Y1 - 2018/11/1

N2 - Lithium (Li) metal, with ultra-high theoretical capacity and low electrochemical potential, is the ultimate anode for next-generation Li metal batteries. However, the undesirable Li dendrite growth usually results in severe safety hazards and low Coulombic efficiency. In this work, we design a three-dimensional CuO@Cu submicron wire sponge current collector with high mechanical strength SEI layer dominated by Li2O during electrochemical reaction process. The 3D CuO@Cu current collector realizes an enhanced CE of above 91% for an ultrahigh current of 10 mA cm-2 after 100 cycles, and yields decent cycle stability at 5 C for the full cell. The exceptional performances of CuO@Cu submicron wire sponge current collector hold promise for further development of the next-generation metal-based batteries.

AB - Lithium (Li) metal, with ultra-high theoretical capacity and low electrochemical potential, is the ultimate anode for next-generation Li metal batteries. However, the undesirable Li dendrite growth usually results in severe safety hazards and low Coulombic efficiency. In this work, we design a three-dimensional CuO@Cu submicron wire sponge current collector with high mechanical strength SEI layer dominated by Li2O during electrochemical reaction process. The 3D CuO@Cu current collector realizes an enhanced CE of above 91% for an ultrahigh current of 10 mA cm-2 after 100 cycles, and yields decent cycle stability at 5 C for the full cell. The exceptional performances of CuO@Cu submicron wire sponge current collector hold promise for further development of the next-generation metal-based batteries.

KW - CuO@Cu

KW - Current collector

KW - Dendrite-free

KW - Lithium anode

KW - Submicron wire sponge

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JO - Frontiers in Chemistry

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Li₂O-reinforced solid electrolyte interphase on three-dimensional sponges for dendrite-free lithium deposition

Abstract

Keywords

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