Amorphous Metal Oxide Nanosheets Featuring Reversible Structure Transformations as Sodium-Ion Battery Anodes

Rongbo Sun; Jingyu Gao; Geng Wu; Peigen Liu; Wenxin Guo; Huang Zhou; Jingjie Ge; Yanmin Hu; Zhenggang Xue; Hai Li; Peixin Cui; Xusheng Zheng; Yuen Wu; Genqiang Zhang; Xun Hong

doi:10.1016/j.xcrp.2020.100118

Amorphous Metal Oxide Nanosheets Featuring Reversible Structure Transformations as Sodium-Ion Battery Anodes

Rongbo Sun, Jingyu Gao, Geng Wu, Peigen Liu, Wenxin Guo, Huang Zhou, Jingjie Ge, Yanmin Hu, Zhenggang Xue, Hai Li, Peixin Cui, Xusheng Zheng, Yuen Wu, Genqiang Zhang, Xun Hong

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

47 Scopus citations

Abstract

The size and shape control of amorphous nanomaterials has long been a bottleneck restricting further development. Here, Sun et al. present a universal and straightforward methodology for fabricating a library of amorphous metal oxide nanosheets. As anode materials for sodium-ion batteries, the FeO_x nanosheets exhibit superior specific capacity and long-term cyclic stability. A reversible amorphous-crystalline-amorphous structure transformation is observed during cycling.

Original language	English
Article number	100118
Journal	Cell Reports Physical Science
Volume	1
Issue number	7
DOIs	https://doi.org/10.1016/j.xcrp.2020.100118
State	Published - 22 Jul 2020

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title = "Amorphous Metal Oxide Nanosheets Featuring Reversible Structure Transformations as Sodium-Ion Battery Anodes",

abstract = "The size and shape control of amorphous nanomaterials has long been a bottleneck restricting further development. Here, Sun et al. present a universal and straightforward methodology for fabricating a library of amorphous metal oxide nanosheets. As anode materials for sodium-ion batteries, the FeOx nanosheets exhibit superior specific capacity and long-term cyclic stability. A reversible amorphous-crystalline-amorphous structure transformation is observed during cycling.",

author = "Rongbo Sun and Jingyu Gao and Geng Wu and Peigen Liu and Wenxin Guo and Huang Zhou and Jingjie Ge and Yanmin Hu and Zhenggang Xue and Hai Li and Peixin Cui and Xusheng Zheng and Yuen Wu and Genqiang Zhang and Xun Hong",

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doi = "10.1016/j.xcrp.2020.100118",

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T1 - Amorphous Metal Oxide Nanosheets Featuring Reversible Structure Transformations as Sodium-Ion Battery Anodes

AU - Sun, Rongbo

AU - Gao, Jingyu

AU - Wu, Geng

AU - Liu, Peigen

AU - Guo, Wenxin

AU - Zhou, Huang

AU - Ge, Jingjie

AU - Hu, Yanmin

AU - Xue, Zhenggang

AU - Li, Hai

AU - Cui, Peixin

AU - Zheng, Xusheng

AU - Wu, Yuen

AU - Zhang, Genqiang

AU - Hong, Xun

PY - 2020/7/22

Y1 - 2020/7/22

N2 - The size and shape control of amorphous nanomaterials has long been a bottleneck restricting further development. Here, Sun et al. present a universal and straightforward methodology for fabricating a library of amorphous metal oxide nanosheets. As anode materials for sodium-ion batteries, the FeOx nanosheets exhibit superior specific capacity and long-term cyclic stability. A reversible amorphous-crystalline-amorphous structure transformation is observed during cycling.

AB - The size and shape control of amorphous nanomaterials has long been a bottleneck restricting further development. Here, Sun et al. present a universal and straightforward methodology for fabricating a library of amorphous metal oxide nanosheets. As anode materials for sodium-ion batteries, the FeOx nanosheets exhibit superior specific capacity and long-term cyclic stability. A reversible amorphous-crystalline-amorphous structure transformation is observed during cycling.

UR - http://www.scopus.com/inward/record.url?scp=85099897608&partnerID=8YFLogxK

U2 - 10.1016/j.xcrp.2020.100118

DO - 10.1016/j.xcrp.2020.100118

M3 - 文章

AN - SCOPUS:85099897608

SN - 2666-3864

VL - 1

JO - Cell Reports Physical Science

JF - Cell Reports Physical Science

IS - 7

M1 - 100118

ER -

Amorphous Metal Oxide Nanosheets Featuring Reversible Structure Transformations as Sodium-Ion Battery Anodes

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