Vertical Graphene Arrays as Electrodes for Ultra-High Energy Density AC Line-Filtering Capacitors

Shichen Xu; Yeye Wen; Zhuo Chen; Nannan Ji; Zhigang Zou; Mingmao Wu; Liangti Qu; Jin Zhang

doi:10.1002/anie.202111468

Vertical Graphene Arrays as Electrodes for Ultra-High Energy Density AC Line-Filtering Capacitors

Shichen Xu
, Yeye Wen
, Zhuo Chen
, Nannan Ji
, Zhigang Zou
, Mingmao Wu^*
, Liangti Qu^*
, Jin Zhang^*

^*Corresponding author for this work

Peking University
Beijing Graphene Institute
Fuzhou University
Nanjing University
Tsinghua University

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

High-frequency responsive electrochemical capacitor (EC), as an ideal lightweight filtering capacitor, can directly convert alternating current (AC) to direct current (DC). However, current electrodes are stuck in limited electrode area and tortuous ion transport. Herein, strictly vertical graphene arrays (SVGAs) prepared by electric-field-assisted plasma enhanced chemical vapour deposition have been successfully designed as the main electrode to ensure ions rapidly adsorb/desorb in richly available graphene surface. SVGAs exhibit an outstanding specific areal capacitance of 1.72 mF cm⁻² at Φ₁₂₀=80.6° even after 500 000 cycles, which is far better than that of most carbon-related materials. Impressively, the output voltage could also be improved to 2.5 V when using organic electrolyte. An ultra-high energy density of 0.33 μWh cm⁻² can also be handily achieved. Moreover, ECs-SVGAs can well smooth arbitrary AC waveforms into DC signals, exhibiting excellent filtering performance.

Original language	English
Pages (from-to)	24505-24509
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	60
Issue number	46
DOIs	https://doi.org/10.1002/anie.202111468
Publication status	Published - 8 Nov 2021
Externally published	Yes

Keywords

electric field
filtering capacitor
phase angle
specific areal capacitance
strictly vertical graphene arrays

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10.1002/anie.202111468

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title = "Vertical Graphene Arrays as Electrodes for Ultra-High Energy Density AC Line-Filtering Capacitors",

abstract = "High-frequency responsive electrochemical capacitor (EC), as an ideal lightweight filtering capacitor, can directly convert alternating current (AC) to direct current (DC). However, current electrodes are stuck in limited electrode area and tortuous ion transport. Herein, strictly vertical graphene arrays (SVGAs) prepared by electric-field-assisted plasma enhanced chemical vapour deposition have been successfully designed as the main electrode to ensure ions rapidly adsorb/desorb in richly available graphene surface. SVGAs exhibit an outstanding specific areal capacitance of 1.72 mF cm−2 at Φ120=80.6° even after 500 000 cycles, which is far better than that of most carbon-related materials. Impressively, the output voltage could also be improved to 2.5 V when using organic electrolyte. An ultra-high energy density of 0.33 μWh cm−2 can also be handily achieved. Moreover, ECs-SVGAs can well smooth arbitrary AC waveforms into DC signals, exhibiting excellent filtering performance.",

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author = "Shichen Xu and Yeye Wen and Zhuo Chen and Nannan Ji and Zhigang Zou and Mingmao Wu and Liangti Qu and Jin Zhang",

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AU - Xu, Shichen

AU - Wen, Yeye

AU - Chen, Zhuo

AU - Ji, Nannan

AU - Zou, Zhigang

AU - Wu, Mingmao

AU - Qu, Liangti

AU - Zhang, Jin

PY - 2021/11/8

Y1 - 2021/11/8

N2 - High-frequency responsive electrochemical capacitor (EC), as an ideal lightweight filtering capacitor, can directly convert alternating current (AC) to direct current (DC). However, current electrodes are stuck in limited electrode area and tortuous ion transport. Herein, strictly vertical graphene arrays (SVGAs) prepared by electric-field-assisted plasma enhanced chemical vapour deposition have been successfully designed as the main electrode to ensure ions rapidly adsorb/desorb in richly available graphene surface. SVGAs exhibit an outstanding specific areal capacitance of 1.72 mF cm−2 at Φ120=80.6° even after 500 000 cycles, which is far better than that of most carbon-related materials. Impressively, the output voltage could also be improved to 2.5 V when using organic electrolyte. An ultra-high energy density of 0.33 μWh cm−2 can also be handily achieved. Moreover, ECs-SVGAs can well smooth arbitrary AC waveforms into DC signals, exhibiting excellent filtering performance.

AB - High-frequency responsive electrochemical capacitor (EC), as an ideal lightweight filtering capacitor, can directly convert alternating current (AC) to direct current (DC). However, current electrodes are stuck in limited electrode area and tortuous ion transport. Herein, strictly vertical graphene arrays (SVGAs) prepared by electric-field-assisted plasma enhanced chemical vapour deposition have been successfully designed as the main electrode to ensure ions rapidly adsorb/desorb in richly available graphene surface. SVGAs exhibit an outstanding specific areal capacitance of 1.72 mF cm−2 at Φ120=80.6° even after 500 000 cycles, which is far better than that of most carbon-related materials. Impressively, the output voltage could also be improved to 2.5 V when using organic electrolyte. An ultra-high energy density of 0.33 μWh cm−2 can also be handily achieved. Moreover, ECs-SVGAs can well smooth arbitrary AC waveforms into DC signals, exhibiting excellent filtering performance.

KW - electric field

KW - filtering capacitor

KW - phase angle

KW - specific areal capacitance

KW - strictly vertical graphene arrays

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JF - Angewandte Chemie - International Edition

IS - 46

ER -

Vertical Graphene Arrays as Electrodes for Ultra-High Energy Density AC Line-Filtering Capacitors

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Keywords

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