Real-time direct observation of Li in LiCoO2 cathode material

Rong Huang; Taro Hitosugi; Scott D. Findlay; Craig A.J. Fisher; Yumi H. Ikuhara; Hiroki Moriwake; Hideki Oki; Yuichi Ikuhara

doi:10.1063/1.3551538

Real-time direct observation of Li in LiCoO₂ cathode material

Rong Huang^*
, Taro Hitosugi
, Scott D. Findlay
, Craig A.J. Fisher
, Yumi H. Ikuhara
, Hiroki Moriwake
, Hideki Oki
, Yuichi Ikuhara

^*此作品的通讯作者

物理与电子科学学院

Japan Fine Ceramics Center
Tohoku University
The University of Tokyo
Toyota Motor

科研成果: 期刊稿件 › 文章 › 同行评审

72 引用（Scopus）

摘要

The direct observation of light elements such as Li is a challenge even for state-of-the-art electron microscopy techniques because such elements scatter electrons only weakly. Using the annular bright field scanning transmission electron microscopy imaging technique, we have simultaneously visualized columns of Li, O, and Co ions in the lithium-ion battery cathode material LiCoO ₂, which is one of the most important cathode materials for industrial applications. The annular bright field image exhibits a good signal-to-noise ratio and the image contrast is not reversed as the specimen thickness changes. The direct visualization of light elements in real time with this method represents an important breakthrough in characterizing the active materials in solid-state electrochemical devices.

源语言	英语
文章编号	051913
期刊	Applied Physics Letters
卷	98
期	5
DOI	https://doi.org/10.1063/1.3551538
出版状态	已出版 - 31 1月 2011

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abstract = "The direct observation of light elements such as Li is a challenge even for state-of-the-art electron microscopy techniques because such elements scatter electrons only weakly. Using the annular bright field scanning transmission electron microscopy imaging technique, we have simultaneously visualized columns of Li, O, and Co ions in the lithium-ion battery cathode material LiCoO 2, which is one of the most important cathode materials for industrial applications. The annular bright field image exhibits a good signal-to-noise ratio and the image contrast is not reversed as the specimen thickness changes. The direct visualization of light elements in real time with this method represents an important breakthrough in characterizing the active materials in solid-state electrochemical devices.",

author = "Rong Huang and Taro Hitosugi and Findlay, \{Scott D.\} and Fisher, \{Craig A.J.\} and Ikuhara, \{Yumi H.\} and Hiroki Moriwake and Hideki Oki and Yuichi Ikuhara",

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AU - Huang, Rong

AU - Hitosugi, Taro

AU - Findlay, Scott D.

AU - Fisher, Craig A.J.

AU - Ikuhara, Yumi H.

AU - Moriwake, Hiroki

AU - Oki, Hideki

AU - Ikuhara, Yuichi

PY - 2011/1/31

Y1 - 2011/1/31

N2 - The direct observation of light elements such as Li is a challenge even for state-of-the-art electron microscopy techniques because such elements scatter electrons only weakly. Using the annular bright field scanning transmission electron microscopy imaging technique, we have simultaneously visualized columns of Li, O, and Co ions in the lithium-ion battery cathode material LiCoO 2, which is one of the most important cathode materials for industrial applications. The annular bright field image exhibits a good signal-to-noise ratio and the image contrast is not reversed as the specimen thickness changes. The direct visualization of light elements in real time with this method represents an important breakthrough in characterizing the active materials in solid-state electrochemical devices.

AB - The direct observation of light elements such as Li is a challenge even for state-of-the-art electron microscopy techniques because such elements scatter electrons only weakly. Using the annular bright field scanning transmission electron microscopy imaging technique, we have simultaneously visualized columns of Li, O, and Co ions in the lithium-ion battery cathode material LiCoO 2, which is one of the most important cathode materials for industrial applications. The annular bright field image exhibits a good signal-to-noise ratio and the image contrast is not reversed as the specimen thickness changes. The direct visualization of light elements in real time with this method represents an important breakthrough in characterizing the active materials in solid-state electrochemical devices.

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DO - 10.1063/1.3551538

M3 - 文章

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SN - 0003-6951

VL - 98

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 5

M1 - 051913

ER -

Real-time direct observation of Li in LiCoO2 cathode material

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Real-time direct observation of Li in LiCoO₂ cathode material