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Direct observation of lithium-ion transport under an electrical field in LixCoO2 nanograins.


ABSTRACT: The past decades have witnessed the development of many technologies based on nanoionics, especially lithium-ion batteries (LIBs). Now there is an urgent need for developing LIBs with good high-rate capability and high power. LIBs with nanostructured electrodes show great potentials for achieving such goals. However, the nature of Li-ion transport behaviors within the nanostructured electrodes is not well clarified yet. Here, Li-ion transport behaviors in Li(x)CoO(2) nanograins are investigated by employing conductive atomic force microscopy (C-AFM) technique to study the local Li-ion diffusion induced conductance change behaviors with a spatial resolution of ~10 nm. It is found that grain boundary has a low Li-ion diffusion energy barrier and provides a fast Li-ion diffusion pathway, which is also confirmed by our first principles calculation. This information provides important guidelines for designing high performance LIBs from a point view of optimizing the electrode material microstructures and the development of nanoionics.

SUBMITTER: Zhu X 

PROVIDER: S-EPMC3547284 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Direct observation of lithium-ion transport under an electrical field in LixCoO2 nanograins.

Zhu Xiaojian X   Ong Chin Shen CS   Xu Xiaoxiong X   Hu Benlin B   Shang Jie J   Yang Huali H   Katlakunta Sadhana S   Liu Yiwei Y   Chen Xinxin X   Pan Liang L   Ding Jun J   Li Run-Wei RW  

Scientific reports 20130117


The past decades have witnessed the development of many technologies based on nanoionics, especially lithium-ion batteries (LIBs). Now there is an urgent need for developing LIBs with good high-rate capability and high power. LIBs with nanostructured electrodes show great potentials for achieving such goals. However, the nature of Li-ion transport behaviors within the nanostructured electrodes is not well clarified yet. Here, Li-ion transport behaviors in Li(x)CoO(2) nanograins are investigated  ...[more]

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