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Visualization of lithium-ion transport and phase evolution within and between manganese oxide nanorods.


ABSTRACT: Multiple lithium-ion transport pathways and local phase changes upon lithiation in silver hollandite are revealed via in situ microscopy including electron diffraction, imaging and spectroscopy, coupled with density functional theory and phase field calculations. We report unexpected inter-nanorod lithium-ion transport, where the reaction fronts and kinetics are maintained within the neighbouring nanorod. Notably, this is the first time-resolved visualization of lithium-ion transport within and between individual nanorods, where the impact of oxygen deficiencies is delineated. Initially, fast lithium-ion transport is observed along the long axis with small net volume change, resulting in two lithiated silver hollandite phases distinguishable by orthorhombic distortion. Subsequently, a slower reaction front is observed, with formation of polyphase lithiated silver hollandite and face-centred-cubic silver metal with substantial volume expansion. These results indicate lithium-ion transport is not confined within a single nanorod and may provide a paradigm shift for one-dimensional tunnelled materials, particularly towards achieving high-rate capability.

SUBMITTER: Xu F 

PROVIDER: S-EPMC5458079 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

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Visualization of lithium-ion transport and phase evolution within and between manganese oxide nanorods.

Xu Feng F   Wu Lijun L   Meng Qingping Q   Kaltak Merzuk M   Huang Jianping J   Durham Jessica L JL   Fernandez-Serra Marivi M   Sun Litao L   Marschilok Amy C AC   Takeuchi Esther S ES   Takeuchi Kenneth J KJ   Hybertsen Mark S MS   Zhu Yimei Y  

Nature communications 20170524


Multiple lithium-ion transport pathways and local phase changes upon lithiation in silver hollandite are revealed via in situ microscopy including electron diffraction, imaging and spectroscopy, coupled with density functional theory and phase field calculations. We report unexpected inter-nanorod lithium-ion transport, where the reaction fronts and kinetics are maintained within the neighbouring nanorod. Notably, this is the first time-resolved visualization of lithium-ion transport within and  ...[more]

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