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Binder-free engineering design of Ni-MOF ultrathin sheet-like grown on PANI@GO decorated nickel foam as an electrode for in hydrogen evolution reaction and asymmetric supercapacitor

Amirabad, Tahereh Nikkhah; Ensafi, Ali A.; Mousaabadi, Kimia Zarean; Rezaei, B.; Demir, Muslum

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        "affiliation": "Isfahan Univ Technol, Dept Chem, Esfahan 8415683111, Iran", 
        "name": "Amirabad, Tahereh Nikkhah"
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      {
        "name": "Ensafi, Ali A."
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        "affiliation": "Isfahan Univ Technol, Dept Chem, Esfahan 8415683111, Iran", 
        "name": "Mousaabadi, Kimia Zarean"
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      {
        "affiliation": "Isfahan Univ Technol, Dept Chem, Esfahan 8415683111, Iran", 
        "name": "Rezaei, B."
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      {
        "name": "Demir, Muslum"
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    "description": "<p>In this study, Ni3(benzene 1,3,5-tricarboxylic acid)@polyaniline-rGO nanocomposite (Ni-MOF@PANI-rGO) is fabricated by a two-step procedure involving polymerization and hy-drothermal operations. This nanocomposite-based Ni-MOF was designed for binder-free surface modification of nickel foam (NF). This is offered a novel approach for enhancing the electrochemical performance, and even energy density with a wider operating poten-tial window. An in-situ Ni-MOF was then synthesized on polyaniline@GO (PANI-GO) using an NH-fragment linker and an in-situ hydrothermal technique. The electrochemical behavior of the nanocomposite was studied in asymmetric systems and exhibited outstanding electrochemical performance, high energy density, and power density (73.99 Wh kg-1 at 848.29 W kg-1). The electrode also showed a high specific capacity (1680 C g-1 at 1.0 A g-1) and exceptional cycling stability (92 \u2052) after 5000 cycles in a three -electrode system. The present results imply a direct application of Ni-MOF@PANI-rGO composite as a bridge performance between supercapacitors and batteries. In addition, the electrocatalyst activity of Ni-MOF@PANI-rGO toward hydrogen evolution reaction (HER) was investigated by linear sweep voltammetry at a scan rate of 10 mV s-1 in 1.0 M KOH. The results showed that Ni-MOF@PAN-rGO acts as a suitable electrocatalyst with the lowest overpotential at 10, 50, and 80 mA cm-2 and the lowest Tafel slope.&amp; COPY; 2023 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.</p>", 
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      "pages": "14", 
      "title": "INTERNATIONAL JOURNAL OF HYDROGEN ENERGY", 
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    "title": "Binder-free engineering design of Ni-MOF ultrathin sheet-like grown on PANI@GO decorated nickel foam as an electrode for in hydrogen evolution reaction and asymmetric supercapacitor"
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Yayınlanma tarihi:
01/01/2023
Bilim dalları:
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Yayınlandığı yer:
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY: 48 pp. 14.
Lisans:
Creative Commons Attribution

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