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    Datenpaket: Electrochemical Investigations of Sulfur-Decorated Organic Materials as Cathodes for Alkali Batteries

    Alternativer Identifier:
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    Verwandter Identifier:
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    Ersteller/in:
    Fu, Qiang [Energiespeichersysteme]

    Zhao, Lei [Energiespeichersysteme]

    Luo, Xianlin https://orcid.org/0000-0001-5386-8231 [Energiespeichersysteme]

    Hobich, Jan [Institut für Biologische Grenzflächen]

    Döpping, Daniel [Institut für Biologische Grenzflächen]

    Rehnlund, David [Energiespeichersysteme]

    Mutlu, Hatice [Institut für Biologische Grenzflächen]

    Dsoke, Sonia https://orcid.org/0000-0001-9295-2110 [Energiespeichersysteme]
    Beitragende:
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    Titel:
    Electrochemical Investigations of Sulfur-Decorated Organic Materials as Cathodes for Alkali Batteries
    Weitere Titel:
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    Beschreibung:
    (Abstract) Alkali metal-sulfur batteries (Li/Na-S) have attracted much attention because of their high energy density, the natural abundance of sulfur, and environmental friendliness. However, Li/Na-S batteries still face big challenges, such as limited cycle life, poor conductivity, large volume changes, and “shuttle effect” caused by the high solubility of Li/Na-polysulfides. Herein, novel organosulfur-containing materials, i.e., bis(4-hydroxy-2,2,6,6-tetramethylpiperidin-1-yl)disulfide (BiTEMPS-OH) and 2,4-thiophene/arene copolymer (TAC) are proposed as cathode materials for Li and Na batteries. BiTEMPS-OH shows an initial discharge/charge capacity of 353/192 mAh g-1 and a capacity of 62 mAh g-1 after 200 cycles at 100 mA g-1 in ether-based Li-ion electrolyte. Meanwhile, TAC has an initial discharge/charge capacity of 270/248 mAh g-1 and better cycling performance (106 mAh g-1 after 200 cycles) than BiTEMPS-OH in the same electrolyte. However, the rate capability of TAC is limited by the slow diffusion of Li-ions. Both materials show inferior electrochemical performances in Na battery cells compared to the Li analogs. X-ray powder diffraction reveals that BiTEMPS-OH loses its crystalline structure permanently upon cycling in Li battery cells. X-ray photoelectron spectroscopy demonstrates the cleavage and partially reversible formation of S-S bonds in BiTEMPS-OH and the formation/decomposition of thick solid electrolyte interphase on the electrode surface of TAC.
    (Technical Remarks) The data include electrochemistry data, XRD data, and XPS data, which was plotting using Origin software.
    Schlagworte:
    Organic materials
    cathodes
    alkali batteries
    BiTEMPS-OH
    thiophene/arene copolymer
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    Sprache:
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    Herausgeber/in:
    Karlsruhe Institute of Technology
    Erstellungsjahr:
    Fachgebiet:
    Engineering
    Objekttyp:
    Dataset
    Datenquelle:
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    Verwendete Software:
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    Datenverarbeitung:
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    Erscheinungsjahr:
    Rechteinhaber/in:
    Fu, Qiang

    Zhao, Lei

    Hobich, Jan

    Döpping, Daniel

    Rehnlund, David

    Mutlu, Hatice
    Förderung:
    -

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    Status:
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    Eingestellt von:
    kitopen
    Erstellt am:
    Ende des Embargo-Zeitraums:
    2024-07-31