R.Z. Liu scite author profile

The development of lithium‐ion batteries with simplified assembling steps and fast charge capability is crucial for current battery applications. In this study, we propose a simple in‐situ strategy for the construction of high‐dispersive cobalt oxide (CoO) nanoneedle arrays, which grow vertically on a copper foam substrate. It is demonstrated that this nanoneedle CoO electrodes provide abundant electrochemical surface area. The resulting CoO arrays directly act as binder‐free anodes in lithium‐ion batteries with the copper foam functioning as the current collector. The highly‐dispersed feature of the nanoneedle arrays enhances the effectiveness of active materials, leading to outstanding rate capability and superior long‐term cycling stability. These impressive electrochemical properties are attributed to the highly‐dispersed self‐standing nanoarrays, the advantages of binder‐free constituent, and the high exposed surface area of the copper foam substrate compared to copper foil, which enrich active surface area and facilitate charge transfer. The proposed approach to prepare binder‐free lithium‐ion battery anodes streamlines the electrode fabrication steps and holds significant promise for the future development of the battery industry.

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Effect of Ag-(La0.8Sr0.2)0.95MnO3 current-collecting layer on the stability of anode-supported solid oxide fuel cell

Zhao

Liu

Shao

et al. 2010

Journal of Alloys and Compounds

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Effects of CuO addition to anode on the electrochemical performances of cathode-supported solid oxide fuel cells

Zhao

Liu

Shao

et al. 2009

Electrochemistry Communications

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R.Z. Liu

Performance of La0.75Sr0.25Cr0.5Mn0.5O3−δ perovskite-structure anode material at lanthanum gallate electrolyte for IT-SOFC running on ethanol fuel

Cobalt Oxide Arrays Anchored to Copper Foam as Efficient Binder‐free Anode for Lithium Ion Batteries

Effect of Ag-(La0.8Sr0.2)0.95MnO3 current-collecting layer on the stability of anode-supported solid oxide fuel cell

Effects of CuO addition to anode on the electrochemical performances of cathode-supported solid oxide fuel cells

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