• Title/Summary/Keyword: 소듐-공기 전지

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A Comparison of the Discharged Products in Environmentally Benign Li-O2 and Na-O2 Batteries (친환경의 리튬 - 공기전지와 소듐 - 공기전지의 방전 생성물 비교 분석 연구)

  • Kang, Jungwon
    • Resources Recycling
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    • v.25 no.3
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    • pp.82-87
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    • 2016
  • The discharged products of Li-$O_2$ and Na-$O_2$ batteries using ether-based electrolyte as next-generation battery system were analyzed. The morphology of the discharged products showed millet-like shape in the both battery systems by FESEM. However, the discharged product, $Li_2O_2$ showed amorphous-like form in the Li-$O_2$ cell while crystalline $NaO_2$ is formed in the Na-$O_2$ cell when confirmed by X-ray diffraction. In this work, we comprehended a principle operating mechanism of Li-$O_2$ and Na-$O_2$ battery.

Planar, Air-breathing PEMFC Systems Using Sodium Borohydride ($NaBH_4$를 이용만 공기호흡형 수소연료전지에 대한 연구)

  • Kim, Jin-Ho;Hwang, Kwang-Taek
    • Journal of Hydrogen and New Energy
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    • v.20 no.4
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    • pp.300-308
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    • 2009
  • In a pursuit of the development of alternative mobile power sources with a high energy density, a planar and air-breathing PEMFCs with a new type of hydrogen cartridge which uses onsite $H_2$ generated from sodium borohydride ($NaBH_4$) hydrolysis have been investigated for use in advanced power systems. Two types of $H_2$ generation through $NaBH_4$ hydrolysis are available: (1) using organic acids such as sulphuric acid, malic acid, and sodium hydrogen carbonate in aqueous solution with solid $NaBH_4$ and (2) using solid selected catalysts such as Pt, Ru, CoB into the stabilized alkaline $NaBH_4$ solution. It might therefore be relevant at this stage to evaluate the relative competitiveness of the two methods mentioned above. The effects of flow rate of stabilized $NaBH_4$ solution, MEA (Membrane Electrode Assembly) improvement, and type and flow control of the catalytic acidic solution have been studied and the cell performances of the planar, air-breathing PEMFCs using $NaBH_4$ has been measured from aspects of power density, fuel efficiency, energy density, and fast response of cell. In our experiments, planar, air-breathing PEMFCs using $NaBH_4$ achieved to maximum power density of 128mW/$cm^2$ at 0.7V and energy efficiency of 46% and has many advantages such as low operating temperature, sustained operation at a high power density, compactness, the potential for low cost and volume, long stack life, fast star-up and suitability for discontinuous operation.

Preparation and Characterization of Planar-type Artificial Calamine Powder with a High Aspect Ratio for the Application to Ultraviolet and Blue Band Protection Cosmetics (자외선 및 블루영역 차단 화장품 응용을 위한 박막 판형 인공 칼라민 소재의 합성 및 특성 평가 연구)

  • Lee, Jung-Hwan;Lee, Gun-Sub;Jo, Dong-Hyeon;Hong, Da-Hee;Yu, Jae-Hoon;Gwack, Ji-Yoo;Lee, Hee-Chul
    • Journal of the Society of Cosmetic Scientists of Korea
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    • v.47 no.3
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    • pp.227-235
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    • 2021
  • In this study, we have prepared pure planar-type ZnO and calamine powder containing both ZnO and Fe2O3 components as a raw material for cosmetics with UV and blue band blocking functions. The planar-type ZnO ceramic powder having a high aspect ratio in the range of 20:1 to 50:1 was synthesized by precipitation method in a zinc acetate and sodium citrate mixed solution with the electrolyte obtained by power generation with a zinc-air battery. The content of Fe2O3 in the artificial calamine ceramic powder could be increased by increasing the amount of iron chloride solution added, and in this case, some of the blue region of visible light and ultraviolet light were remarkably absorbed. When potassium acetate was added, the decomposition of the Zn(OH)42- anion in the solution was promoted to facilitate the growth of ZnO crystal in the form of a barrier wall in the vertical direction on the (0001) plane, which could increase UV absorption by providing more opportunities. By controlling the amount of iron chloride solution and potassium acetate solution added, the composition and shape of the thin film plate-shaped artificial calamine ceramic powder can be optimized, and when applied to cosmetic formulations, the light transmittance of the blue region can be greatly reduced.