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Flexible and high temperature supercapacitor based on laser-induced graphene electrodes and ionic liquid electrolyte, a de-rated voltage analysis

•The combination of LIG and ionic liquid is proposed to fabricate flexible and high temperature micro-supercapacitor.•This flexible device demonstrates excellent stability even at high bending condition and at 100 °C.•The proposed de-rated voltage analysis define a safe procedure to characterize sup...

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Published in:Electrochimica acta 2020-10, Vol.357, p.136838, Article 136838
Main Authors: Zaccagnini, Pietro, di Giovanni, Daniele, Gomez, Manuel Gomez, Passerini, Stefano, Varzi, Alberto, Lamberti, Andrea
Format: Article
Language:English
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Summary:•The combination of LIG and ionic liquid is proposed to fabricate flexible and high temperature micro-supercapacitor.•This flexible device demonstrates excellent stability even at high bending condition and at 100 °C.•The proposed de-rated voltage analysis define a safe procedure to characterize supercapacitor at high temperature.•This approach will allow to avoid the deterioration of the system performance. Herein we report the fabrication and electrochemical characterization of a novel type of supercapacitor composed of laser-induced graphene (LIG) electrodes, achieved by the laser-writing of polyimide foils, and 1-Butyl-1-methylpyrrolidinium bis(trifluoromethanesulfonyl)imide ionic liquid as electrolyte. This combination allows the development of a flexible microsupercapacitor suitable for harsh environment application. The influence of several parameters is evaluated with the aim of maximizing the performance of the flexible pouch-bag devices, such as the laser-writing conditions, type of electrode layout and amount of nitrogen-doping. Among them, the laser writing conditions are found to strongly influence the areal capacitance allowing to achieve about 4 mF cm−2, as measured from the galvanostatic charge-discharge measurement at 10 µA cm−2, with a maximum operating potential range of 3 V at 25 °C. In order to probe the potential application of such device, i) flexible pouch architecture and ii) high temperature measurements (considering harsh environment field) are investigated. This type of flexible device exhibits energy and power density as high as 4.5 µWh cm−2 and 90.5 µW cm−2, respectively, high cycling stability as well as acceptable coulombic efficiency above 97% demonstrating good stability even at high bending condition (1.25 cm of bending radius). The electrochemical measurements increasing temperature up to 100 °C reveal a 300% of rise in capacitance and 43% of increment in energy density at de-rated voltage. The obtained energy storage performance are comparable to the best data ever reported for a microsupercapacitor for high temperature application. Moreover, a de-rated voltage analysis (DVA) is proposed as a safe procedure to characterize an energy storage device in an extended temperature range without compromising the system performances. [Display omitted]
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2020.136838