Electro-photocatalytic degradation of acid orange II using a novel TiO2/ACF photoanode

A novel photoanode was prepared by immobilizing TiO(2) film onto activated carbon fibers (TiO(2)/ACF) using liquid phase deposition (LPD) to study the electro-photocatalytic (EPC) degradation of organic compounds exemplified by an azo-dye, namely, Acid Orange II (AOII). Results demonstrated that by...

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Bibliographic Details
Published in:The Science of the total environment 2009-03, Vol.407 (7), p.2431-2439
Main Authors: YINING HOU, JUIHUI QU, XU ZHAO, PENGJU LEI, DONGJIN WAN, HUANG, C. P
Format: Article
Language:English
Subjects:
Adsorption
Applied sciences
Azo Compounds - chemistry
Carbon - chemistry
Electric Impedance
Electrochemical Techniques
Electrodes
Exact sciences and technology
Industrial wastewaters
Microscopy, Electron, Scanning
Naphthalenes - chemistry
Oxidation-Reduction
Photochemical Processes
Pollution
Titanium - chemistry
Wastewaters
Water Pollutants, Chemical - chemistry
Water Purification - methods
Water treatment and pollution
X-Ray Diffraction
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Summary:A novel photoanode was prepared by immobilizing TiO(2) film onto activated carbon fibers (TiO(2)/ACF) using liquid phase deposition (LPD) to study the electro-photocatalytic (EPC) degradation of organic compounds exemplified by an azo-dye, namely, Acid Orange II (AOII). Results demonstrated that by applying a 0.5 V bias (vs. SCE) across the TiO(2)/ACF electrode, the AOII degradation rate was increased significantly compared to that of photocatalytic (PC) oxidation. The application of an electric field promotes the separation of photogenerated electrons and holes as confirmed by electrochemical impedance spectroscopy (EIS) measurements. The structural and surface morphology of the TiO(2)/ACF electrode was characterized by field emission scanning electron microscopy (FE-SEM) and X-ray diffraction (XRD). SEM images showed that TiO(2) was deposited on almost every carbon fiber with an average thickness of about 200 nm with the inner space between neighboring fibers being maintained unfilled. The morphological features of the photo-anode facilitated the passage of solution as well as UV light through the felt-form electrode and created a three-dimensional environment favorable to EPC oxidation. Both the large outer surface area of the 3D electrode and the good organic adsorption capacity of the ACF support promoted high contact efficiency between AOII and TiO(2) surface. Anatase was the major crystalline TiO(2) deposited. UV-vis spectrophotometry, TOC (total organic carbon) analysis, and HPLC technique were used to monitor the concentration change of AOII and intermediates as to gain insight into the EPC degradation of AOII using the TiO(2)/ACF electrode.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2008.12.055