Efficient energy storage performance of polyaniline based supercapacitor

Ruchi, Ruchi; Gupta, Vivek; Pal, Rishi; Goyal, Sneh

doi:10.1063/5.0061431

Cited by 1 publication

(2 citation statements)

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Section: Components Of Textile‐based Supercapacitorsmentioning

confidence: 99%

“…[132] Therefore, the combination of PANI with other active materials (such as carbon materials, metal compounds, or other polymers) is recommended to overcome such intrinsic disadvantages. [133][134][135] Polypyrrole (PPy) is a 𝜋-electron conjugated CP, which has been researched widely for energy storage applications due to its good electrical conductivity and environmental stability in ambient conditions. It has shown promise as SC electrodes because of its large theoretical capacitance, good redox properties, superior conductivity, ease of synthesis, nontoxicity, biocompatibility, and high thermal and environmental stability.…”

Section: Conductive Polymersmentioning

confidence: 99%

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Smart Electronic Textile‐Based Wearable Supercapacitors

et al. 2022

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Electronic textiles (e-textiles) have drawn significant attention from the scientific and engineering community as lightweight and comfortable next-generation wearable devices due to their ability to interface with the human body, and continuously monitor, collect, and communicate various physiological parameters. However, one of the major challenges for the commercialization and further growth of e-textiles is the lack of compatible power supply units. Thin and flexible supercapacitors (SCs), among various energy storage systems, are gaining consideration due to their salient features including excellent lifetime, lightweight, and high-power density. Textile-based SCs are thus an exciting energy storage solution to power smart gadgets integrated into clothing. Here, materials, fabrications, and characterization strategies for textile-based SCs are reviewed. The recent progress of textile-based SCs is then summarized in terms of their electrochemical performances, followed by the discussion on key parameters for their wearable electronics applications, including washability, flexibility, and scalability. Finally, the perspectives on their research and technological prospects to facilitate an essential step towards moving from laboratory-based flexible and wearable SCs to industrial-scale mass production are presented. IntroductionWearable electronic textiles (e-textiles) have been going through significant evolutions in recent years, due to the continuous progress of material science and nanotechnology, miniaturization, and wireless revolution. [1,2] E-textiles possess functionalities such as sensing, computation, display, and communication, [3][4][5][6]

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Section: Components Of Textile‐based Supercapacitorsmentioning

confidence: 99%