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Photodegradation performance and mechanism of 4-nonylphenol by WO<sub>3</sub>/TiO<sub>2</sub> and TiO<sub>2</sub> nanotube array photoelectrodes

Yanjun XinCollege of Science and Information, Qingdao Agricultural University, Qingdao, People’s Republic of ChinaGang WangQingdao Engineering Research Center for Rural Environment, College of Resource and Environment, Qingdao Agricultural University, Qingdao, People’s Republic of ChinaXiang‐Wei ZhuQingdao Engineering Research Center for Rural Environment, College of Resource and Environment, Qingdao Agricultural University, Qingdao, People’s Republic of ChinaMengchun GaoThe Key Laboratory of Marine Environmental Science and Ecology, Ministry of Education, Ocean University of China, Qingdao, People’s Republic of ChinaYongping LiuCollege of Science and Information, Qingdao Agricultural University, Qingdao, People’s Republic of ChinaQinghua ChenQingdao Engineering Research Center for Rural Environment, College of Resource and Environment, Qingdao Agricultural University, Qingdao, People’s Republic of China
2017en
ABI

Annotatsiya

TiO2 Nanotube arrays (TNA) and WO3-coated TNA photoelectrodes were fabricated using an in situ anodization and pulse electrochemical deposition technology. The performance of the TNA photoelectrodes in the photocatalytic (PC) and photoelectrocatalytic (PEC) degradation of 4-nonylphenol (4-NP) was investigated. The effects of the initial pH and the anions on the degradation rates and reaction mechanism of 4-NP were studied by the photoluminescence (PL) spectra and electrochemical impedance spectra (EIS). The degradation of 4-NP was fitted to a first-order reaction, and the apparent kinetic constants were 1.9 × 10−2 min−1 for TNA photoelectrodes and 2.4 × 10−2 min−1 for WO3/TNA photoelectrodes. When a bias potential of 1.0 V was applied, the values for TNA and WO3/TNA photoelectrodes increased to 2.5 × 10−2 and 3.0 × 10−2 min−1, respectively. The degradation of 4-NP was controlled by a charge-transfer process one. WO3-decorated TNA photoelectrodes could increase the adsorption of 4-NP and promote its degradation. For the TNA and WO3/TNAs photoelectrodes, acid and alkaline solutions could facilitate the formation of hydroxyl radicals, whereas the removal of 4-NP was inhibited. The presence of , Cl−, and has a negative effect on the formation of •OH, so did the removal of 4-NP. For the TNA photoelectrodes, the inhibition effect of on the formation of hydroxyl radicals and the removal of 4-NP was the most serious compared with that of , Cl− and , while for the WO3/TNA photoelectrodes the inhibition effect of on the removal of 4-NP was maximum.

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