Links

DOI

Al3+-doped vanadium oxide (AlxV2O5) with x = 0.072 was synthesized by hydrothermal method. The presence of Al3+ ions in the layered structure of AlxV2O5 agglomerated in the form of “nanoflowers” was confirmed. The mechanism of electrochemical intercalation processes in AlxV2O5 cathodes in Mg2+-containing aqueous electrolyte was studied. The dynamics of the near-electrode electrolyte pH during charge–discharge processes was investigated by in situ pH measurements. The cyclic evolution of the electrolyte pH during the charge–discharge process suggests the direct involvement of hydrogen ions in the intercalation processes along with Mg2+-intercalation. © 2024 Elsevier B.V.
Original languageEnglish
JournalMaterials Letters
Volume373
DOIs
StatePublished - 1 Oct 2024

    Research areas

  • AlxV2O5 cathode, Aqueous electrolyte, Electrochemical intercalation, Proton and magnesium intercalation, Aluminum compounds, Electric discharges, Electrolytes, Magnesium, Oxides, Vanadium compounds, Charge-discharge process, Electrochemical intercalations, Hydrothermal methods, Intercalation process, Layered Structures, Magnesium intercalations, Proton intercalations, Synthesised, Cathodes

ID: 126354584