Plasmon-induced photoelectrocatalytic activity of Au nanoparticles enhanced TiO2 nanotube arrays electrodes for environmental remediation

•Au nanoparticles enhanced TiO2 nanotube arrays.•Uniformly dispersed Au nanoparticles.•Plasmon-induced photoelectrocatalytic performance.•Enhanced photoelectrocatalytic activity for environmental remediation. A pulse electrodeposition (PED) technique was adopted to construct highly dispersed Au nano...

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Published inApplied catalysis. B, Environmental Vol. 164; pp. 217 - 224
Main Authors Wu, Ling, Li, Fang, Xu, Yuanyuan, Zhang, Jane W., Zhang, Dieqing, Li, Guisheng, Li, Hexing
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2015
Subjects
Environmental remediation
Photoelectrocatalytic
Plasmon-induced
TiO2
Plasmon-induced
Environmental remediation
Au
Photoelectrocatalytic
TiO2
Online AccessGet full text
ISSN0926-3373
1873-3883
DOI10.1016/j.apcatb.2014.09.029

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Abstract •Au nanoparticles enhanced TiO2 nanotube arrays.•Uniformly dispersed Au nanoparticles.•Plasmon-induced photoelectrocatalytic performance.•Enhanced photoelectrocatalytic activity for environmental remediation. A pulse electrodeposition (PED) technique was adopted to construct highly dispersed Au nanoparticles (Au-NPs) on TiO2 nanotube arrays (TiO2-NTs) electrodes prepared by electrochemical anodic oxidation. Both the particle size and loading amount were facilely controlled via adjusting electrochemical parameters. The morphology, crystallinity, elemental composition and light absorption capability of as-obtained Au/TiO2-NTs were distinguished based on various characterizations. Compared with pure TiO2-NTs, Au/TiO2-NTs electrodes exhibited much higher photocurrent density and greatly enhanced photoelectrocatalytic (PEC) activity towards the degradation of methyl orange (MO) under visible-light irradiation (λ>420nm). The synergy effect between nanotubular structures of TiO2 and uniformly dispersed Au nanoparticles, as well as the small bias potential and strong interaction between Au and TiO2, facilitated the Au plasmon-induced charge separation and transfer, which lead to highly efficient and stable visible-light PEC activity.
AbstractList •Au nanoparticles enhanced TiO2 nanotube arrays.•Uniformly dispersed Au nanoparticles.•Plasmon-induced photoelectrocatalytic performance.•Enhanced photoelectrocatalytic activity for environmental remediation. A pulse electrodeposition (PED) technique was adopted to construct highly dispersed Au nanoparticles (Au-NPs) on TiO2 nanotube arrays (TiO2-NTs) electrodes prepared by electrochemical anodic oxidation. Both the particle size and loading amount were facilely controlled via adjusting electrochemical parameters. The morphology, crystallinity, elemental composition and light absorption capability of as-obtained Au/TiO2-NTs were distinguished based on various characterizations. Compared with pure TiO2-NTs, Au/TiO2-NTs electrodes exhibited much higher photocurrent density and greatly enhanced photoelectrocatalytic (PEC) activity towards the degradation of methyl orange (MO) under visible-light irradiation (λ>420nm). The synergy effect between nanotubular structures of TiO2 and uniformly dispersed Au nanoparticles, as well as the small bias potential and strong interaction between Au and TiO2, facilitated the Au plasmon-induced charge separation and transfer, which lead to highly efficient and stable visible-light PEC activity.
Author Xu, Yuanyuan
Wu, Ling
Li, Fang
Zhang, Jane W.
Li, Hexing
Zhang, Dieqing
Li, Guisheng
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  givenname: Hexing
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  fullname: Li, Hexing
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Environmental remediation
Au
Photoelectrocatalytic
TiO2
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Snippet •Au nanoparticles enhanced TiO2 nanotube arrays.•Uniformly dispersed Au nanoparticles.•Plasmon-induced photoelectrocatalytic performance.•Enhanced...
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SubjectTerms Environmental remediation
Photoelectrocatalytic
Plasmon-induced
TiO2
Title Plasmon-induced photoelectrocatalytic activity of Au nanoparticles enhanced TiO2 nanotube arrays electrodes for environmental remediation
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