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  2. Ca2+ Pre-Intercalated Bilayered Vanadium Oxide for High-Performance Aqueous Mg-Ion Batteries
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    Datenpaket: Ca2+ Pre-Intercalated Bilayered Vanadium Oxide for High-Performance Aqueous Mg-Ion Batteries

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

    Wu, Xiaoyu [Wu, Xiaoyu]

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

    Ding, Ziming [Institut für Nanotechnologie]

    Indris, Sylvio https://orcid.org/0000-0002-5100-113X [Energiespeichersysteme]

    Sarapulova, Angelina [Energiespeichersysteme]

    Meng, Zhen [Helmholtz-Institut Ulm]

    Desmau, Morgane [Deutsches Elektronen-Synchrotron]

    Wang, Zhengqi [Werkstoffkunde]

    Hua, Weibo [Energiespeichersysteme]

    Kübel, Christian K. U. https://orcid.org/0000-0001-5701-4006 [Institut für Nanotechnologie]

    Schwarz, Björn [Energiespeichersysteme]

    Knapp, Michael https://orcid.org/0000-0003-0091-8463 [Energiespeichersysteme]

    Ehrenberg, Helmut [Energiespeichersysteme]

    Wei, Yingjin [Wei, Yingjin]

    Dsoke, Sonia https://orcid.org/0000-0001-9295-2110 [Energiespeichersysteme]
    Beitragende:
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    Titel:
    Ca2+ Pre-Intercalated Bilayered Vanadium Oxide for High-Performance Aqueous Mg-Ion Batteries
    Weitere Titel:
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    Beschreibung:
    (Abstract) The “oxygen-rich” Ca2+ pre-intercalated bilayered vanadium oxide (CaVOnH) was synthesized via hydrothermal method and determined as a monoclinic structure with reasonable lattice parameters. CaVOnH achieves a first discharge capacity of 273 mAh g−1 with capacity retention of 91% at 50 mA g−1 in 0.8 m Mg(TFSI)2-85%PEG-15%H2O (polyethylene glycol, PEG), but limited rate capability due to the low ionic conductivity of electrolyte. Dimethyl sulfoxide (DMSO) is used as a co-solvent to tune the physical-chemical properties of aqueous Mg-ion electrolyte (AME), resulting in the reorganization of Mg2+ solvation and hydrogen bond network. The AME containing DMSO shows improved ionic conductivity, low viscosity, and high Mg2+ diffusion coefficient and allows CaVOnH and V2O5 to achieve a much-improved rate capability and capacity. Moreover, the reaction mechanism and reversibility of CaVOnH are elucidated by combining in operando and ex situ techniques. The results demonstrate that CaVOnH undergoes 2-phase reaction and solid solution, the variation of oxidation state and the local environment of vanadium, and reversible formation/decomposition of MgF2 cathode electrolyte interface during Mg2+ (de)intercalation, where MgF2 originated from the decomposition of TFSI-.
    (Technical Remarks) The data include electrochemistry data, XRD, XPS, XAS, and magnetic data, which was plotting using Origin software. The emd. file can be opened and proceeded with Velox software. The dm4. file can be opened and proceeded with DigitalMicrograph software.
    Schlagworte:
    Aqueous Mg-ion batteries
    vanadium oxide cathode
    aqueous Mg-ion electrolyte
    in operando synchrotron diffraction
    in operando X‑ray absorption spectroscopy
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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

    Wu, Xiaoyu

    Ding, Ziming

    Sarapulova, Angelina

    Meng, Zhen

    Desmau, Morgane

    Wang, Zhengqi

    Hua, Weibo

    Kübel, Christian K. U. https://orcid.org/0000-0001-5701-4006

    Schwarz, Björn

    Ehrenberg, Helmut

    Wei, Yingjin
    Förderung:
    -
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    Status:
    Publiziert
    Eingestellt von:
    kitopen
    Erstellt am:
    Archivierungsdatum:
    2024-01-04
    Archivgröße:
    162,6 MB
    Archiversteller:
    kitopen
    Archiv-Prüfsumme:
    81fe216da8815429155cc98a8640041b (MD5)
    Ende des Embargo-Zeitraums:
    2024-04-30