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Effect of Morphology of Amorphous TiO2 Nanotube on Its Electrochemical Performance as Supercapacitors
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Affiliation:

1.College of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, China;2.Shanxi Academy of Analytical Sciences, Taiyuan 030006, China

Clc Number:

TN304

Fund Project:

Special Talents Science and Technology Innovation Project of Shanxi Province of China (201705D211007); Shanxi Provincial Natural Science Foundation of China (201801D121099, 201801D221140, 201903D421081)

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    Abstract:

    Hydrogenated amorphous TiO2 nanotube arrays (H@am-TNAs) with different tube diameter, length and wall thickness were prepared through the modified two-step electrochemical anodization and electrochemical hydrogenation method. Results show that the electrochemical hydrogenation has almost no effect on the topology of TiO2 nanotube arrays. After electrochemical hydrogenation, the nanotubes have a specific capacitance of 4.05 mF·cm-2 at 100 mV·s-1 that is 20 times larger than that of the corresponding one without hydrogenation with the same tube length and diameter. The capacitance of the nanotube is not only related to the tube length but also influenced by tube diameter. The aspect ratio of the nanotubes shows a linear relationship if fitted by an exponential function. The areal capacitance/aspect ratio reaches 0.056, which is almost equivalent to that of the anatase phase TiO2 nanotubes. The nanotubes anodized for 2 h own the smallest charge transfer resistance, the best ion diffusion/transportation kinetics, and the highest areal capacity. Furthermore, to study the wettability in the electrochemical properties of the H@am-TNAs, the same H@am-TNAs electrode was soaked in the electrolyte for different hours before C-V and C-P testing, and the results show that the capacitance decreases with increasing the soaking time.

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[Song Zhiyuan, Li Xianrong, Zhuang Changwan, Wei Aili, Zhang Wanggang, Liu Yi-ming. Effect of Morphology of Amorphous TiO2 Nanotube on Its Electrochemical Performance as Supercapacitors[J]. Rare Metal Materials and Engineering,2021,50(10):3485~3494.]
DOI:10.12442/j. issn.1002-185X.20200610

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History
  • Received:August 17,2020
  • Revised:September 27,2021
  • Adopted:October 15,2020
  • Online: October 28,2021
  • Published: October 25,2021