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Published in

Elsevier, Journal of Photochemistry and Photobiology A: Chemistry, 1(193), p. 33-41, 2008

DOI: 10.1016/j.jphotochem.2007.06.004

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Two-step synthesis of a novel visible-light-driven K2Ta2O6-xNx catalyst for the pollutant decomposition

This paper is available in a repository.
This paper is available in a repository.

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Abstract

Visible-light-driven K2Ta2O6-xNx catalysts have been synthesized successfully from N-doped Ta2O5 precursors in KOH solutions by a simple hydrothermal process. K2Ta2O6-xNx with pyrocrhore structure could be obtained at above 160 degrees C for 24 h. K2Ta2O6-xNx crystals presented cube-shaped morphologies, and absorbed the visible-light up to the wavelength of 600 nm. The as-prepared sample could decompose formaldehyde efficiently under the visible irradiation (lambda > 400 nm), and its photocatalytic activity depended on the N-doping content and the hydrothermal temperature. K2Ta2O5.982N0.018 prepared at 220 degrees C for 24h showed the highest photoactivity for the formaldehyde degradation. Additionally, it presented much higher activity than that of the sample prepared by the NH3 annealing directly. The visible-light response of K2Ta2O6-xNx catalyst could be closely related to the N-doping content. As the x values were >0.256, the valence-band of the catalyst was composed of the hybrid O 2p and N 2p orbitals, and the visible-light sensitivity was due to the narrowing of the band-gap by mixing the N 2p and O 2p states. However, as the x values were <0.073, the isolated narrow band formed above the valence-band of O 2p was responsible for the visible-light response. (c) 2007 Published by Elsevier B.V