Carbon-doped tio2 nanotube array platform for visible photocatalysis

Xiang Peng; Jijiang Fu; Xuming Zhang; Yong Li; Meng Huang; Kaifu Huo; Paul K. Chu

doi:10.1166/nnl.2013.1681

Carbon-doped tio2 nanotube array platform for visible photocatalysis

Xiang Peng, Jijiang Fu, Xuming Zhang, Yong Li, Meng Huang, Kaifu Huo, Paul K. Chu

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

21 Citations (Scopus)

Abstract

Carbon-doped TiO2 nanotube arrays (NTAs) are fabricated by electrochemical anodization followed by annealing in argon without extrinsic precursors. Ethylene glycol (EG) from the electrolyte adsorbs onto the nanotube (NT) wall during anodization and serves as the carbon source. The C atoms are distributed uniformly along the entire nanotube surface forming C-doped TiO2 NTAs and the bandgap of the C-doped NTAs shifts towards the visible range. By removing the accumulated carbon around the mouth of the NT, the NTAs exhibit high visible light photocatalytic activity as a result of the high separation efficiency of photogenerated electrons and holes. The favorable properties stem from the synergistic effects between the carbon sensitizer and one-dimensional TiO2 structure. Copyright © 2013 American Scientific Publishers. All rights reserved.

Original language	English
Pages (from-to)	1251-1257
Journal	Nanoscience and Nanotechnology Letters
Volume	5
Issue number	12
Online published	1 Dec 2013
DOIs	https://doi.org/10.1166/nnl.2013.1681
Publication status	Published - Dec 2013

Research Keywords

Carbon Doping
Electrochemical Anodization
Hydrophilic.
Photocatalysis
TiO2 Nanotube Array

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abstract = "Carbon-doped TiO2 nanotube arrays (NTAs) are fabricated by electrochemical anodization followed by annealing in argon without extrinsic precursors. Ethylene glycol (EG) from the electrolyte adsorbs onto the nanotube (NT) wall during anodization and serves as the carbon source. The C atoms are distributed uniformly along the entire nanotube surface forming C-doped TiO2 NTAs and the bandgap of the C-doped NTAs shifts towards the visible range. By removing the accumulated carbon around the mouth of the NT, the NTAs exhibit high visible light photocatalytic activity as a result of the high separation efficiency of photogenerated electrons and holes. The favorable properties stem from the synergistic effects between the carbon sensitizer and one-dimensional TiO2 structure. Copyright {\textcopyright} 2013 American Scientific Publishers. All rights reserved.",

keywords = "Carbon Doping, Electrochemical Anodization, Hydrophilic., Photocatalysis, TiO2 Nanotube Array",

author = "Xiang Peng and Jijiang Fu and Xuming Zhang and Yong Li and Meng Huang and Kaifu Huo and Chu, {Paul K.}",

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T1 - Carbon-doped tio2 nanotube array platform for visible photocatalysis

AU - Peng, Xiang

AU - Fu, Jijiang

AU - Zhang, Xuming

AU - Li, Yong

AU - Huang, Meng

AU - Huo, Kaifu

AU - Chu, Paul K.

PY - 2013/12

Y1 - 2013/12

N2 - Carbon-doped TiO2 nanotube arrays (NTAs) are fabricated by electrochemical anodization followed by annealing in argon without extrinsic precursors. Ethylene glycol (EG) from the electrolyte adsorbs onto the nanotube (NT) wall during anodization and serves as the carbon source. The C atoms are distributed uniformly along the entire nanotube surface forming C-doped TiO2 NTAs and the bandgap of the C-doped NTAs shifts towards the visible range. By removing the accumulated carbon around the mouth of the NT, the NTAs exhibit high visible light photocatalytic activity as a result of the high separation efficiency of photogenerated electrons and holes. The favorable properties stem from the synergistic effects between the carbon sensitizer and one-dimensional TiO2 structure. Copyright © 2013 American Scientific Publishers. All rights reserved.

AB - Carbon-doped TiO2 nanotube arrays (NTAs) are fabricated by electrochemical anodization followed by annealing in argon without extrinsic precursors. Ethylene glycol (EG) from the electrolyte adsorbs onto the nanotube (NT) wall during anodization and serves as the carbon source. The C atoms are distributed uniformly along the entire nanotube surface forming C-doped TiO2 NTAs and the bandgap of the C-doped NTAs shifts towards the visible range. By removing the accumulated carbon around the mouth of the NT, the NTAs exhibit high visible light photocatalytic activity as a result of the high separation efficiency of photogenerated electrons and holes. The favorable properties stem from the synergistic effects between the carbon sensitizer and one-dimensional TiO2 structure. Copyright © 2013 American Scientific Publishers. All rights reserved.

KW - Carbon Doping

KW - Electrochemical Anodization

KW - Hydrophilic.

KW - Photocatalysis

KW - TiO2 Nanotube Array

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DO - 10.1166/nnl.2013.1681

M3 - RGC 21 - Publication in refereed journal

SN - 1941-4900

VL - 5

SP - 1251

EP - 1257

JO - Nanoscience and Nanotechnology Letters

JF - Nanoscience and Nanotechnology Letters

IS - 12

ER -

Carbon-doped tio2 nanotube array platform for visible photocatalysis

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Research Keywords

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