Electronic Structure Regulation of Layered Vanadium Oxide via Interlayer Doping Strategy toward Superior High‐Rate and Low‐Temperature Zinc‐Ion Batteries

Currently, development of suitable cathode materials for zinc‐ion batteries (ZIBs) is plagued by the sluggish kinetics of Zn2+ with multivalent charge in the host structure. Herein, it is demonstrated that interlayer Mn2+‐doped layered vanadium oxide (Mn0.15V2O5·nH2O) composites with narrowed direct bandgap manifest greatly boosted electrochemical performance as zinc‐ion battery cathodes. Specifically, the Mn0.15V2O5·nH2O electrode shows a high specific capacity of 367 mAh g−1 at a current density of 0.1 A g−1 as well as excellent retentive capacities of 153 and 122 mAh g−1 after 8000 cycles at high current densities up to 10 and 20 A g−1, respectively. Even at a low temperature of −20 °C, a reversible specific capacity of 100 mAh g−1 can be achieved at a current density of 2.0 A g−1 after 3000 cycles. The superior electrochemical performance originates from the synergistic effects between the layered nanostructures and interlayer doping of Mn2+ ions and water molecules, which can enhance the electrons/ions transport kinetics and structural stability during cycling. With the aid of various ex situ characterization technologies and density functional theory calculations, the zinc‐ion storage mechanism can be revealed, which provides fundamental guidelines for developing high‐performance cathodes for ZIBs.

• Publication year

  2019

• Venue

  Advanced Functional Materials

• Publication date

  2019-11-18

• Fields of study

  Materials Science, Chemistry, Engineering

• Identifiers
  DOI 10.1002/adfm.201907684
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

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