Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering

Zhou Li; Xiaopeng Wang; Lingyu Zhao; Fengyao Chi; Chang Gao; Ying Wang; Mengdan Yan; Qian Zhou; Miaomiao Zhao; Xinyang Wang; Jiaqi Wang; Man Yuan; Mingmao Wu; Lixia Wang; Yang Zhao; Liangti Qu

doi:10.1038/s41467-022-34082-2

Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering

Zhou Li, Xiaopeng Wang^*, Lingyu Zhao, Fengyao Chi, Chang Gao, Ying Wang, Mengdan Yan, Qian Zhou, Miaomiao Zhao, Xinyang Wang, Jiaqi Wang, Man Yuan, Mingmao Wu, Lixia Wang^*, Yang Zhao^*, Liangti Qu

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

26 引用（Scopus）

摘要

Filtering capacitors with wide operating voltage range are essential for smoothing ripples in line-powered system, which are still unsatisfactory due to low energy density and limited working voltage scopes. Herein, we report an aqueous hybrid electrochemical capacitor with areal specific energy density of 1.29 mF V² cm⁻² at 120 Hz, greater than common aqueous ones. Interestingly, it can be easily integrated at scale to show excellent flexibility, controllable and stable filtering performance, in which an integrated device (e.g., seven units in series) exhibits fluctuation of 96 mV, 10 times smaller than an aluminum electrolytic capacitor with similar capacitance. A record-high 1,000 V can also be achieved after integrating 670 units, exceeding those reported so far, and about 1.5 times of commercial bulk aluminum electrolytic capacitors (~700 V). This work opens up a new insight for promising applications in multiple electricity transmission systems that requiring high smoothness under harsh voltage.

源语言	英语
文章编号	6359
期刊	Nature Communications
卷	13
期	1
DOI	https://doi.org/10.1038/s41467-022-34082-2
出版状态	已出版 - 12月 2022

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Li, Z., Wang, X., Zhao, L., Chi, F., Gao, C., Wang, Y., Yan, M., Zhou, Q., Zhao, M., Wang, X., Wang, J., Yuan, M., Wu, M., Wang, L., Zhao, Y., & Qu, L. (2022). Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering. Nature Communications, 13(1), 文章 6359. https://doi.org/10.1038/s41467-022-34082-2

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title = "Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering",

abstract = "Filtering capacitors with wide operating voltage range are essential for smoothing ripples in line-powered system, which are still unsatisfactory due to low energy density and limited working voltage scopes. Herein, we report an aqueous hybrid electrochemical capacitor with areal specific energy density of 1.29 mF V2 cm−2 at 120 Hz, greater than common aqueous ones. Interestingly, it can be easily integrated at scale to show excellent flexibility, controllable and stable filtering performance, in which an integrated device (e.g., seven units in series) exhibits fluctuation of 96 mV, 10 times smaller than an aluminum electrolytic capacitor with similar capacitance. A record-high 1,000 V can also be achieved after integrating 670 units, exceeding those reported so far, and about 1.5 times of commercial bulk aluminum electrolytic capacitors (~700 V). This work opens up a new insight for promising applications in multiple electricity transmission systems that requiring high smoothness under harsh voltage.",

author = "Zhou Li and Xiaopeng Wang and Lingyu Zhao and Fengyao Chi and Chang Gao and Ying Wang and Mengdan Yan and Qian Zhou and Miaomiao Zhao and Xinyang Wang and Jiaqi Wang and Man Yuan and Mingmao Wu and Lixia Wang and Yang Zhao and Liangti Qu",

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doi = "10.1038/s41467-022-34082-2",

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Li, Z, Wang, X, Zhao, L, Chi, F, Gao, C, Wang, Y, Yan, M, Zhou, Q, Zhao, M, Wang, X, Wang, J, Yuan, M, Wu, M, Wang, L, Zhao, Y & Qu, L 2022, 'Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering', Nature Communications, 卷 13, 号码 1, 6359. https://doi.org/10.1038/s41467-022-34082-2

TY - JOUR

T1 - Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering

AU - Li, Zhou

AU - Wang, Xiaopeng

AU - Zhao, Lingyu

AU - Chi, Fengyao

AU - Gao, Chang

AU - Wang, Ying

AU - Yan, Mengdan

AU - Zhou, Qian

AU - Zhao, Miaomiao

AU - Wang, Xinyang

AU - Wang, Jiaqi

AU - Yuan, Man

AU - Wu, Mingmao

AU - Wang, Lixia

AU - Zhao, Yang

AU - Qu, Liangti

PY - 2022/12

Y1 - 2022/12

N2 - Filtering capacitors with wide operating voltage range are essential for smoothing ripples in line-powered system, which are still unsatisfactory due to low energy density and limited working voltage scopes. Herein, we report an aqueous hybrid electrochemical capacitor with areal specific energy density of 1.29 mF V2 cm−2 at 120 Hz, greater than common aqueous ones. Interestingly, it can be easily integrated at scale to show excellent flexibility, controllable and stable filtering performance, in which an integrated device (e.g., seven units in series) exhibits fluctuation of 96 mV, 10 times smaller than an aluminum electrolytic capacitor with similar capacitance. A record-high 1,000 V can also be achieved after integrating 670 units, exceeding those reported so far, and about 1.5 times of commercial bulk aluminum electrolytic capacitors (~700 V). This work opens up a new insight for promising applications in multiple electricity transmission systems that requiring high smoothness under harsh voltage.

AB - Filtering capacitors with wide operating voltage range are essential for smoothing ripples in line-powered system, which are still unsatisfactory due to low energy density and limited working voltage scopes. Herein, we report an aqueous hybrid electrochemical capacitor with areal specific energy density of 1.29 mF V2 cm−2 at 120 Hz, greater than common aqueous ones. Interestingly, it can be easily integrated at scale to show excellent flexibility, controllable and stable filtering performance, in which an integrated device (e.g., seven units in series) exhibits fluctuation of 96 mV, 10 times smaller than an aluminum electrolytic capacitor with similar capacitance. A record-high 1,000 V can also be achieved after integrating 670 units, exceeding those reported so far, and about 1.5 times of commercial bulk aluminum electrolytic capacitors (~700 V). This work opens up a new insight for promising applications in multiple electricity transmission systems that requiring high smoothness under harsh voltage.

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Aqueous hybrid electrochemical capacitors with ultra-high energy density approaching for thousand-volts alternating current line filtering

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