氧空位诱导的带隙变窄和 ZnO 的可见光光催化活性增强。

Oxygen vacancy induced band-gap narrowing and enhanced visible light photocatalytic activity of ZnO.

机构信息

State Key Lab of Crystal Materials, Shandong University, Jinan 250100, China.

出版信息

ACS Appl Mater Interfaces. 2012 Aug;4(8):4024-30. doi: 10.1021/am300835p. Epub 2012 Jul 23.

Abstract

Oxygen vacancies in crystal have important impacts on the electronic properties of ZnO. With ZnO(2) as precursors, we introduce a high concentration of oxygen vacancies into ZnO successfully. The obtained ZnO exhibits a yellow color, and the absorption edge shifts to longer wavelength. Raman and XPS spectra reveal that the concentration of oxygen vacancies in the ZnO decreased when the samples are annealed at higher temperature in air. It is consistent with the theory calculation. The increasing of oxygen vacancies results in a narrowing bandgap and increases the visible light absorption of the ZnO. The narrowing bandgap can be confirmed by the enhancement of the photocurrent response when the ZnO was irradiated with visible light. The ZnO with oxygen vacancies are found to be efficient for photodecomposition of 2,4-dichlorophenol under visible light irradiation.

摘要

晶体中的氧空位对 ZnO 的电子性质有重要影响。我们以 ZnO(2) 为前驱体，成功地将高浓度的氧空位引入 ZnO 中。得到的 ZnO 呈现黄色，吸收边缘向长波长移动。拉曼和 XPS 谱表明，当样品在空气中高温退火时，ZnO 中的氧空位浓度降低。这与理论计算一致。氧空位的增加导致带隙变窄，增加了 ZnO 对可见光的吸收。当 ZnO 受到可见光照射时，光电流响应增强，证实了带隙变窄。在可见光照射下，具有氧空位的 ZnO 被发现对 2,4-二氯苯酚的光解具有高效性。

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氧空位诱导的带隙变窄和 ZnO 的可见光光催化活性增强。

Oxygen vacancy induced band-gap narrowing and enhanced visible light photocatalytic activity of ZnO.

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