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首页> 外文期刊>Applied Surface Science >Novel fabrication method of hierarchical planar micro-supercapacitor via laser-induced localized growth of manganese dioxide nanowire arrays
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Novel fabrication method of hierarchical planar micro-supercapacitor via laser-induced localized growth of manganese dioxide nanowire arrays

机译:通过激光诱导的二氧化锰纳米线阵列的分层平面微型超级电容器的新型制造方法

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摘要

Micro-supercapacitors are enormously needed, owing to increasing energy demands in miniaturizing mobile electronic devices. Manganese dioxide (MnO2) is one of the most popular micro-supercapacitor electrode materials that can be applied with various fabrication methods. However, in case of the conventional fabrication of MnO2-based micro-supercapacitor, fabrication methods require complex multiple steps or sophisticated patterning techniques for MnO2 selective micro-patterning. Thus, it is difficult to improve space utilization of micro-supercapacitor and apply them to further another application. In this study, we introduce a novel fabrication method of hierarchical planar micro-supercapacitor using MnO2 nanowire (NW) arrays. Using laserinduced hydrothermal growth (LIHG) process, MnO2 NW arrays are vertically grown on selective area in the desired location under ambient conditions. For the stable growth of vertically aligned MnO2 NW array using LIHG process, various laser parameters, including irradiation time and power, are adjusted. Afterward, the vertically grown MnO2 NW arrays are applied to fabricate hierarchical planar micro-supercapacitor, showing high areal capacitance of 227 mF cm-2 (at 1 mA cm-2) in terms of footprint area on tiny 2D plane. Thus, the proposed approach can be considered as a new fabrication method for capacitance enhancement of planar microsupercapacitor.
机译:由于在微型移动电子设备中的能量需求增加,因此需要微型超级电容器。二氧化锰(MNO2)是可以用各种制造方法施加的最流行的微型超级电容器电极材料之一。然而,在常规制造基于MNO2的微外超电流机的情况下,制造方法需要复杂的多步骤或用于MNO2选择性微图案的复杂的图案化技术。因此,难以改善微超级电容器的空间利用率,并将它们应用于进一步的另一个应用。在这项研究中,我们使用MnO2纳米线(NW)阵列介绍了分层平面微型超级电容器的新颖制造方法。使用激光抑制的水热生长(LiHG)方法,在环境条件下在所需位置的选择区域上垂直生长MnO 2 NW阵列。对于使用Lihg工艺的垂直对准MnO2 NW阵列的稳定生长,调整各种激光参数,包括照射时间和功率。之后,将垂直生长的MnO2 NW阵列应用于制造分层平面微型超级电容器,以微小的2D平面上的足迹区域表示227mF cm-2(在1 mA cm-2)的高面积电容。因此,所提出的方法可以被认为是平面微型电容器电容增强的新制造方法。

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  • 来源
    《Applied Surface Science》 |2021年第30期|149382.1-149382.8|共8页
  • 作者

    Hwang Suwon; Hwang Taeseung; Kong Heejung; Lee Sangwook; Yeo Junyeob;

  • 作者单位

    Kyungpook Natl Univ Dept Phys Novel Appl Nano Opt Lab 80 Daehak Ro Daegu 41566 South Korea;

    Kyungpook Natl Univ Dept Phys Novel Appl Nano Opt Lab 80 Daehak Ro Daegu 41566 South Korea;

    Kyungpook Natl Univ Dept Phys Novel Appl Nano Opt Lab 80 Daehak Ro Daegu 41566 South Korea;

    Kyungpook Natl Univ Sch Mat Sci & Engn 80 Daehak Ro Daegu 41566 South Korea;

    Kyungpook Natl Univ Dept Phys Novel Appl Nano Opt Lab 80 Daehak Ro Daegu 41566 South Korea|Kyungpook Natl Univ Dept Hydrogen & Renewable Energy Daehak Ro 80 Daegu 41566 South Korea;

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  • 正文语种 eng
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  • 关键词

    Laser-induced localized growth; Hydrothermal growth; Manganese dioxide; Nanowire; Planar micro-supercapacitor;

    机译:激光诱导的局部增长;水热生长;二氧化锰;纳米线;平面微超级电容器;

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