Abstract

The TiO2 nanotubes, TiO2 nanofibers and TiO2 nanoparticles with different structures and morphologies are prepared by hydrothermal and electrospinning methods. Co-P material is manufactured by mechanical alloying. Ball milling is applied to fabricate various TiO2 active components modified Co-P composites. Ultimately, the composite electrodes exhibit higher discharge capacities than the ordinary Co-P, Co-P + TiO2-NT shows the highest discharge capacity (602.4 mAh/g) and preferable HRD and kinetic properties. The TiO2-NT with distinctive tubular porous structure and large specific surface area can offer sufficient reactive sites and fast channels for charge transfer, thus further accelerate the hydrogen diffusion.

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