Realizing high-voltage and ultralong-life supercapacitors by a universal interfacial engineering strategy

Low energy density hinders the development of supercapacitors in the market of large hybrid power equipment and electric vehicles that demand much higher energy density. Herein, we conduct a facile and environmentally friendly method to modify the electrodes of supercapacitors through coating a diel...

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Bibliographic Details
Published in:Journal of power sources 2021-10, Vol.510, p.230406, Article 230406
Main Authors: Bai, Yuge, Li, Nan, Yang, Chao, Wu, Xiaodong, Yang, Hengrui, Chen, Weimeng, Li, Hongjie, Zhao, Bin, Wang, Peng-Fei, Han, Xiaogang
Format: Article
Language:English
Subjects:
Atomic layer deposition
Dielectric constant
Energy density
Flexible device
Operational voltage window
Surface charge density
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Summary:Low energy density hinders the development of supercapacitors in the market of large hybrid power equipment and electric vehicles that demand much higher energy density. Herein, we conduct a facile and environmentally friendly method to modify the electrodes of supercapacitors through coating a dielectric thin film by atomic layer deposition (ALD) technique, which profoundly improves the electrochemical performance of the electrodes. In specific, the gravimetric capacitance of the ALD-Ti modified electrodes is characterized by 35% significant promotion comparing to the commercialized pristine counterparts, and the operational voltage window of the ALD treated electrodes can expand to 3.5 V using organic electrolyte with remarkable capacitance retention (over 83%) even after 20000 cycles. Besides, appropriate models are established to discuss the detailed charge storage mechanism and possible reasons for good stability of modified electrodes under higher operational voltage. Moreover, the excellent rate and cycling performance of ALD modified electrodes in flexible electrochemical double-layer capacitor (EDLCs) at the bending state substantiates the application superiority of ALD modified electrodes in flexible devices. The unusual combination of charge storage mechanisms of dielectric capacitors and EDLCs established in our work represents specific properties in great need for energy storage applications. Atomic Layer Deposition technique is utilized to modify the electrodes in supercapacitors, the modified electrodes can endure the electrochemical window of 3.5 V in organic electrolyte and possesses 35% higher capacitance compared to pristine carbon electrode with longer lifespan. [Display omitted] •The modified electrode increases 35% higher capacitance compared to original one.•The voltage window of treated electrode extends to 3.5 V in organic electrolyte.•The modified flexible devices demonstrate excellent cycling performance.
ISSN:0378-7753
1873-2755
DOI:10.1016/j.jpowsour.2021.230406