Microstructure-tailored TiO_(2)nanoarrays with adjustive wall-hole morphology have been designed to improve electrochemical properties. Tubular, porous and flow-through TiO_(2)nanoarrays are fabricated by one-stepped, two-stepped and three-stepped anodization process under the controlled reaction condition. Tubular nanoarray with the opened-mouth and closed-bottom has a tube diameter of 120-130nm, a length of 8.12μm, and wall thickness of 15nm. Similarly, porous TiO_(2)nanoarray with the opened-mouth and closed-bottom has a pore diameter of 60-70nm, a length of 8.25μm, neighboring wall distance of 70-80nm. Comparatively, flow-through TiO_(2)nanoarray with the opened-mouth and opened-bottom has a pore diameter of 110-120nm, a length of 8.56μm, neighboring wall distance of 40nm. In comparison with tubular and porous TiO_(2)nanoarrays, flow-through TiO_(2)nanoarray indicates the deceased charge transfer resistance and diffusion-related Warburg impedance, presenting the enhanced current response at the same electrode potential. Accordingly, bottom-opened flow-through TiO_(2)nanoarray achieves the specific capacitance of 6.35 mF cm~(-2), which is higher than the bottom-closed tubular and porous TiO_(2)nanoarrays (2.94 and 3.78 mF cm~(-2)). The flow-through TiO_(2)nanoarray presents the improved electrochemical performance for the electrochemical energy-storage.
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