Journal Article10.1039/C4NR02677B
A facile and versatile method for preparation of colored TiO2 with enhanced solar-driven photocatalytic activity.
Huaqiao Tan,Zhao Zhao,Mang Niu,Chengyu Mao,Dapeng Cao,Daojian Cheng,Pingyun Feng,Zaicheng Sun +7 more
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TL;DR: This report develops a simple and facile solid-state chemical reduction approach for a large-scale production of colored TiO2 at mild temperature (300-350 °C) and results indicate that valence band tail and vacancy band below the conduction band minimum appear for theTiO2-x, which implies that the TiO-x nanocrystal has a narrow band gap and therefore leads to a broad visible light absorption.
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Abstract: Colored TiO2 has attracted enormous attention due to its visible light absorption and excellent photocatalytic activity. In this report, we develop a simple and facile solid-state chemical reduction approach for a large-scale production of colored TiO2 at mild temperature (300–350 °C). The obtained sample possesses a crystalline core/amorphous shell structure (TiO2@TiO2−x). The oxygen vacancy results in the formation of a disordered TiO2−x shell on the surface of TiO2 nanocrystals. XPS and theoretical calculation results indicate that valence band tail and vacancy band below the conduction band minimum appear for the TiO2−x, which implies that the TiO2@TiO2−x nanocrystal has a narrow band gap and therefore leads to a broad visible light absorption. Oxygen vacancy in a proper concentration promotes the charge separation of photogenerated carriers, which improves the photocatalytic activity of TiO2@TiO2−x nanocrystals. This facile and general method could be potentially used for large scale production of colored TiO2 with remarkable enhancement in the visible light absorption and solar-driven H2 production.
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Citations
Regulation of Oxygen Activation Pathways to Optimize Photocatalytic Methane Oxidative Coupling Selectivity
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TL;DR: Researchers developed a photocatalyst with N and oxygen vacancy dual active sites to regulate oxygen activation pathways, achieving high activity and selectivity in methane oxidative coupling, with alkane yields increasing from 16 to 32 μmol h–1 and selectivity from 61% to 93%.
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