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Maximizing ion accessibility in MXene-knotted carbon nanotube composite electrodes for high-rate electrochemical energy storage.


ABSTRACT: Improving the accessibility of ions in the electrodes of electrochemical energy storage devices is vital for charge storage and rate performance. In particular, the kinetics of ion transport in organic electrolytes is slow, especially at low operating temperatures. Herein, we report a new type of MXene-carbon nanotube (CNT) composite electrode that maximizes ion accessibility resulting in exceptional rate performance at low temperatures. The improved ion transport at low temperatures is made possible by breaking the conventional horizontal alignment of the two-dimensional layers of the MXene Ti3C2 by using specially designed knotted CNTs. The large, knot-like structures in the knotted CNTs prevent the usual restacking of the Ti3C2 flakes and create fast ion transport pathways. The MXene-knotted CNT composite electrodes achieve high capacitance (up to 130?F?g-1 (276?F?cm-3)) in organic electrolytes with high capacitance retention over a wide scan rate range of 10?mV?s-1 to 10?V?s-1. This study is also the first report utilizing MXene-based supercapacitors at low temperatures (down to -60?°C).

SUBMITTER: Gao X 

PROVIDER: S-EPMC7710708 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Maximizing ion accessibility in MXene-knotted carbon nanotube composite electrodes for high-rate electrochemical energy storage.

Gao Xiang X   Du Xuan X   Mathis Tyler S TS   Zhang Mengmeng M   Wang Xuehang X   Shui Jianglan J   Gogotsi Yury Y   Xu Ming M  

Nature communications 20201202 1


Improving the accessibility of ions in the electrodes of electrochemical energy storage devices is vital for charge storage and rate performance. In particular, the kinetics of ion transport in organic electrolytes is slow, especially at low operating temperatures. Herein, we report a new type of MXene-carbon nanotube (CNT) composite electrode that maximizes ion accessibility resulting in exceptional rate performance at low temperatures. The improved ion transport at low temperatures is made pos  ...[more]

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