Abstract
In this paper, core-shell structured TiO2@HfO2 nanowire arrays with designable HfO2 layer thicknesses were constructed by atomic layer deposition (ALD) method. The effects of TiO2@HfO2 nanowire arrays filler and HfO2 thickness on dielectric and energy storage properties of polyvinylidene fluoride (PVDF) based nanocomposites were investigated. The HfO2 shell thicknesses were controlled via regulating the cycle times of ALD and increased from 2.4 nm to 5.4 nm with the cycle times increment from 13 times to 50 times. Owing to the ferroelectricity of the HfO2 and the hierarchical interfacial polarization originated from the multilevel interface in the composites, the permittivity of the TiO2@HfO2 nanowire array/PVDF nanocomposite with 50 deposition cycles reached 27.4 at 103 Hz, which was 105% larger than that of the TiO2 nanowire array/PVDF nanocomposite. Moreover, the maximal discharged energy density is 2.92 J/cm3 at a low electric field of 138 kV/mm, exceeding more than 97%.
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