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首页> 外文期刊>Applied Surface Science >Electrochemical mechanisms of activated carbon, α-MnO_2 and composited activated carbon-α-MnO_2 films in supercapacitor applications
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Electrochemical mechanisms of activated carbon, α-MnO_2 and composited activated carbon-α-MnO_2 films in supercapacitor applications

机译:活性炭,α-MnO_2和复合活性炭-α-MnO_2膜在超级电容器应用中的电化学机制

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摘要

Pure alpha-MnO2 and activated carbon-MnO2 (AC-MnO2) films coated on Ni foam by electrophoretic deposition were applied as a supercapacitor electrode. The specific capacitance of AC-MnO2 films (155.03 F g 1) surpasses those of the pure AC (110.62 F g(-1)) and pure MnO2 film in the 1 M NaOH electrolyte. EDX and XPS detect an increase in the Na content and the reduction of Mn4+ to Mn3+ on the discharged MnO2 electrode (at 0.0 V), whereas a decrease in the Na content and the oxidation of Mn3+ to Mn4+ were obtained on the charged MnO2 electrode (at 0.45 V). Computational simulation of the Na inserted alpha-MnO2 structure displays the connection of Na to O atoms and the increasing electron density on Mn atoms. EDX of the charged AC-MnO2 (at 1.0 V) film detects a rise in the Na and a fall in the O contents, but the discharged AC-MnO2 film (at 0.0 V) shows a decrease in Na and increase in O contents. The AC-MnO2 film could retain 82.29% of the initial specific capacity after 10,000 cycles. Four series-supercapacitor coin cell assembled from the AC-MnO2 anode and MnO2 cathode delivers a power density of 2.79 kW kg (-1) and an energy density of 168.8 Wh kg (-1).
机译:通过电泳沉积涂覆在Ni泡沫上的纯α-MnO 2和活性炭-mNO2(AC-MNO2)薄膜作为超级电容器电极施加。 AC-MNO2薄膜的比电容(155.03f g 1)超过纯AC(110.62V(-1))和1M NaOH电解质中的纯MNO2膜的电容。 EDX和XPS检测在​​排出的MNO2电极(0.0V)上的Na含量的增加和Mn4 +至Mn3 +的升高,而在带电MnO 2电极上获得Na含量的降低和Mn3 +至Mn4 +的氧化(在0.45 v)。 Na插入的α-MnO2结构的计算模拟显示Na至O原子的连接以及Mn原子上增加的电子密度。带电的AC-MNO2(1.0V)薄膜的EDX检测NA的升高和O含量下降,但排出的AC-MNO2膜(0.0V)显示NA的降低和O含量的增加。 AC-MNO2薄膜可以在10,000个循环后保留初始特定容量的82.29%。从AC-MnO2阳极和MnO2阴极组装的四个系列超级电池币电池可提供2.79kW kg(-1)的功率密度,电能密度为168.8WH(-1)。

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  • 来源
    《Applied Surface Science》 |2021年第30期|151056.1-151056.16|共16页
  • 作者

    Tagsin Patin; Suksangrat Pitphichaya; Klangtakai Pawinee; Srepusharawoot Pornjuk; Ruttanapun Chesta; Kumnorkaew Pisist; Pimanpang Samuk; Amornkitbamrung Vittaya;

  • 作者单位

    Khon Kaen Univ Dept Phys Fac Sci Khon Kaen 40002 Thailand|Khon Kaen Univ Inst Nanomat Res & Innovat Energy IN RIE NANOTEC KKU RNN Nanomat Res & Innovat Energy Khon Kaen 40002 Thailand;

    Khon Kaen Univ Dept Phys Fac Sci Khon Kaen 40002 Thailand|Khon Kaen Univ Inst Nanomat Res & Innovat Energy IN RIE NANOTEC KKU RNN Nanomat Res & Innovat Energy Khon Kaen 40002 Thailand;

    Khon Kaen Univ Dept Phys Fac Sci Khon Kaen 40002 Thailand|Khon Kaen Univ Inst Nanomat Res & Innovat Energy IN RIE NANOTEC KKU RNN Nanomat Res & Innovat Energy Khon Kaen 40002 Thailand|Chiang Mai Univ Thailand Ctr Excellence Phys TheP POB 70 Chiang Mai 50202 Thailand;

    Chiang Mai Univ Thailand Ctr Excellence Phys TheP POB 70 Chiang Mai 50202 Thailand;

    King Mongkuts Inst Technol Ladkrabang Fac Sci Dept Phys Bangkok 10520 Thailand;

    Natl Sci & Technol Dev Agcy NSTDA Natl Nanotechnol Ctr NANOTEC Pathum Thani 12120 Thailand;

    Chiang Mai Univ Thailand Ctr Excellence Phys TheP POB 70 Chiang Mai 50202 Thailand|Srinakharinwirot Univ Fac Sci Dept Phys Bangkok 10110 Thailand;

    Khon Kaen Univ Dept Phys Fac Sci Khon Kaen 40002 Thailand|Khon Kaen Univ Inst Nanomat Res & Innovat Energy IN RIE NANOTEC KKU RNN Nanomat Res & Innovat Energy Khon Kaen 40002 Thailand|Chiang Mai Univ Thailand Ctr Excellence Phys TheP POB 70 Chiang Mai 50202 Thailand;

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  • 正文语种 eng
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  • 关键词

    Supercapacitor; MnO2; Activated carbon; Electrophoretic; Nanoparticles;

    机译:超级电容器;MnO2;活性炭;电泳;纳米粒子;

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