• Title/Summary/Keyword: Hydrogel electrolytes

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Electrochemical Properties of Activated Carbon Supercapacitors Adopting Hydrophilic Silica and Hydrogel Electrolytes (친수성 실리카와 하이드로겔 전해질이 적용된 활성탄 수퍼커패시터의 전기화학적 특성)

  • Lee, Hae Soo;Park, Jang Woo;Lee, Yong Min;Ryou, Myung Hyun;Kim, Kwang Man;Ko, Jang Myoun
    • Korean Chemical Engineering Research
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    • v.54 no.3
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    • pp.293-298
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    • 2016
  • A hydrogel electrolyte consisting of 6 M KOH aqueous solution, potassium polyacrylate (PAAK, 3 wt.%), and a hydrophilic silica OX50 (1 wt.%) was prepared to use as an electrolyte medium coated on a Scimat separator of activated carbon supercapacitor. The silica particle distributed homogeneously on surface pores of the separator to increase ionic conductivity and electrochemical stability of the hydrogel electrolyte. The silica addition also involved superior specific capacitance even at higher scan rates due to decrease in interfacial resistance between hydrogel electrolyte and activated carbon electrode.

Technologies for Next-Generation Metal-Ion Batteries Based on Aqueous Electrolytes (수계전해질기반 차세대 금속이온전지 기술)

  • D.O. Shin;J. Choi;S.H. Kang;Y.S. Park;Y.-G. Lee
    • Electronics and Telecommunications Trends
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    • v.39 no.1
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    • pp.83-94
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    • 2024
  • There have been continuous requirements for developing more reliable energy storage systems that could address unsolved problems in conventional lithium-ion batteries (LIBs) and thus be a proper option for large-scale applications like energy storage system (ESS). As a promising solution, aqueous metal-ion batteries (AMIBs) where water is used as a primary electrolyte solvent, have been emerging owing to excellent safety, cost-effectiveness, and eco-friendly feature. Particularly, AMIBs adopting mutivalence metal ions (Ca2+, Mg2+, Zn2+, and Al3+) as mobile charge carriers has been paid much attention because of their abundance on globe and high volumetric capacity. In this research trend review, one of the most popular AMIBs, zinc-ion batteries (ZIBs), will be discussed. Since it is well-known that ZIBs suffer from various (electro) chemical/physical side reactions, we introduce the challenges and recent advances in the study of ZIBs mainly focusing on widening the electrochemical window of aqueous electrolytes as well as improving electrochemical properties of cathode, and anode materials.

Electrochemical Properties of Activated Carbon Supecapacitor Adopting Poly(acrylonitrile) Separator Coated by Polymer-Alkaline Electrolytes (고분자-알칼리 전해질이 코팅된 Poly(acrylonitrile) 분리막을 적용한 활성탄 수퍼커패시터 특성)

  • Kim, Kwang Man;Lee, Young-Gi;Ko, Jang Myoun
    • Korean Chemical Engineering Research
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    • v.55 no.4
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    • pp.467-472
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    • 2017
  • Alkaline electrolytes consisting of 6 M KOH and polymer (PEO, PVA, and PAAK) are coated on PAN nonwoven fabrics as a separator, and the electrochemical properties of the activated carbon supercapacitor adopting them are investigated in terms of redox behavior, specific capacitance, and interfacial impedance. Although the interaction between polymer and KOH are comparatively inactive in PEO and PVA, PAAK (3 wt.%)-KOH forms a hydrogel phase by active interactions between $COO^-K^+$ in side-chain of PAAK and $K^+OH^-$ from alkaline electrolyte solution, improving ionic conduction of electrolytes and the electrochemical properties of the supercapacitor. As a result, the activated supercapacitor adopting the PAAK-KOH shows the superior specific capacitance of $46.8Fg^{-1}$ at $100mVs^{-1}$.