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Pristine graphene‑ink for 3D‑printed flexible solid‑state supercapacitor KCI 등재

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  • URLhttps://db.koreascholar.com/Article/Detail/420833
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Carbon Letters (Carbon letters)
한국탄소학회 (Korean Carbon Society)
초록

Due to its capacity to manufacture low-cost 3D-printed structures, 3D-printing technology offers a unique opportunity for the fast epitome of various applications. Using a typical fused deposition modeling 3D printer along with a Discovery extruder, a graphene-ink can be 3D printed to produce an interdigitated electrode (IDE) arrangement. This work fabricated a 3D-printed planar supercapacitor from pristine graphene-ink without using high-temperature processing or functional additives. The printable ink (89%) is formulated from pristine graphene without the addition of any functional additives. The symmetric flexible supercapacitor is demonstrated with an excellent specific capacitance of 137.50 F/g at 0.5 A/g and an energy density of 12.23 Wh/kg. The obtained gravimetric energy density beats reported earlier carbon-based supercapacitors that are 3D or inkjet printed. The flexibility and robustness of 3D-printed devices are achieved up to 150° folding angles. This work demonstrates an efficient and easy method for fabricating practical energy storage devices featuring a customizable shape and excellent flexibility.

목차
    Abstract
    1 Introduction
    2 Experimental
        2.1 Materials
        2.2 Preparation of pristine MLG-ink
        2.3 3D printing of pristine MLG-ink
        2.4 Preparation of PVA–H2SO4 gel electrolyte
        2.5 Characterizations
    3 Results and discussion
    4 Conclusions
    Acknowledgements 
    References
저자
  • Satendra Kumar(Academy of Scientific and Innovative Research (AcSIR), CSIR-Advanced Materials and Processes Research Institute (AMPRI))
  • Manoj Goswami(Academy of Scientific and Innovative Research (AcSIR), CSIR-Advanced Materials and Processes Research Institute (AMPRI))
  • Netrapal Singh(Academy of Scientific and Innovative Research (AcSIR), CSIR-Advanced Materials and Processes Research Institute (AMPRI))
  • Prachi Soni(Deaprtment of Electrical Engineering, Indian Institute of Technology, School of Nanotechnology, Rajiv Gandhi Proudyogiki Vishwavidyalaya)
  • N. Sathish(Academy of Scientific and Innovative Research (AcSIR), CSIR-Advanced Materials and Processes Research Institute (AMPRI))
  • Surender Kumar(Academy of Scientific and Innovative Research (AcSIR), CSIR-Advanced Materials and Processes Research Institute (AMPRI))