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The P25 TiO2/4-chlorophenol photocatalytic system: Spectral sensitivity or lamp artefact?

Title
The P25 TiO2/4-chlorophenol photocatalytic system: Spectral sensitivity or lamp artefact?
Authors
Lee, S.-K.Mills, A.O'Rourke, C.
DGIST Authors
Lee, S.-K.
Issue Date
2017
Citation
Journal of Photochemistry and Photobiology A: Chemistry, 346, 153-158
Type
Article
Article Type
Article
Keywords
4 Chlorophenol (4 Cp)PhotocatalysisSpectral SensitivityTitanium Dioxide
ISSN
1010-6030
Abstract
The photocatalysed mineralisation of 4-chlorophenol, 4-CP, by P25 TiO2 is a well-studied photocatalytic system. A previous paper (Emeline et al., J. Phys. Chem. B, 2000, 104, 11202) reported an action spectrum, i.e. photonic efficiency, η, vs. excitation wavelength, λ(ex), for the P25/4-CP system, that exhibited a series of peaks and troughs which, it was proposed, provided evidence of P25 spectral sensitivity. However, in this re-examination it is shown that the peaks and troughs in the action spectrum occur in the regions of the troughs and peaks in the emission spectrum of the Xe/Hg lamp used by these researchers. The dependencies of η, and quantum yield, ϕ, upon incident light intensity, ρ, in semiconductor-sensitised photocatalytic systems are considered and a rationale provided that suggests the action spectrum reported by Emerline et al. is actually due to the variation in ρ in the emission spectrum of the Xe/Hg lamp. In order to test the latter hypothesis, the action spectrum of the same P25/4-CP system is determined, but this time using a Xe lamp; the latter action spectrum has no peaks and troughs and corresponds closely to that of the diffuse reflectance spectrum of the P25 dispersion as expected if there is no spectral sensitivity. This action spectrum, and similar results reported by others for this and other test pollutants, provides strong evidence that the claim of spectral sensitivity for the P25/4-CP system is unjustified, based on the reported action spectrum of Emeline et al., since the latter is due to the spectral variation in irradiance of the Xe/Hg excitation source employed in the original study. © 2017 Elsevier B.V.
URI
http://hdl.handle.net/20.500.11750/4264
DOI
10.1016/j.jphotochem.2017.05.018
Publisher
Elsevier B.V.
Related Researcher
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Collection:
Smart Textile Convergence Research Group1. Journal Articles


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