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Dynamic behaviour of interphases and its implication on high-energy-density cathode materials in lithium-ion batteries.


ABSTRACT: Undesired electrode-electrolyte interactions prevent the use of many high-energy-density cathode materials in practical lithium-ion batteries. Efforts to address their limited service life have predominantly focused on the active electrode materials and electrolytes. Here an advanced three-dimensional chemical and imaging analysis on a model material, the nickel-rich layered lithium transition-metal oxide, reveals the dynamic behaviour of cathode interphases driven by conductive carbon additives (carbon black) in a common nonaqueous electrolyte. Region-of-interest sensitive secondary-ion mass spectrometry shows that a cathode-electrolyte interphase, initially formed on carbon black with no electrochemical bias applied, readily passivates the cathode particles through mutual exchange of surface species. By tuning the interphase thickness, we demonstrate its robustness in suppressing the deterioration of the electrode/electrolyte interface during high-voltage cell operation. Our results provide insights on the formation and evolution of cathode interphases, facilitating development of in situ surface protection on high-energy-density cathode materials in lithium-based batteries.

SUBMITTER: Li W 

PROVIDER: S-EPMC5414066 | biostudies-literature | 2017 Apr

REPOSITORIES: biostudies-literature

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Dynamic behaviour of interphases and its implication on high-energy-density cathode materials in lithium-ion batteries.

Li Wangda W   Dolocan Andrei A   Oh Pilgun P   Celio Hugo H   Park Suhyeon S   Cho Jaephil J   Manthiram Arumugam A  

Nature communications 20170426


Undesired electrode-electrolyte interactions prevent the use of many high-energy-density cathode materials in practical lithium-ion batteries. Efforts to address their limited service life have predominantly focused on the active electrode materials and electrolytes. Here an advanced three-dimensional chemical and imaging analysis on a model material, the nickel-rich layered lithium transition-metal oxide, reveals the dynamic behaviour of cathode interphases driven by conductive carbon additives  ...[more]

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