Issue 18, 2013

Opto-electrical properties and chemisorption reactivity of Ga-doped ZnO nanopagodas

Abstract

ZnO nanostructures with Ga doping prepared by metal–organic chemical vapor deposition developed an interesting nanopagoda shape with exposed {11[2 with combining macron]1}, {11[2 with combining macron]2}, {[2 with combining macron]201}, and {[1 with combining macron]101} lateral planes instead of {10[1 with combining macron]0} and {11[2 with combining macron]0} in the usually observed ZnO nanorods or nanowires. The types of exposed planes strongly affect those properties relating to surface reactivity. In this work, we report the opto-electrical properties and chemical reactivity of the Ga-doped ZnO nanopagodas and ZnO nanowires. Ultraviolet responses of photodetectors demonstrated that Ga-doped ZnO nanopagodas not only possessed a faster electron–hole generation and recombination rate but also exhibited higher photocatalytic activities than the ZnO nanowires. The improved performance of Ga-doped ZnO nanopagodas is due to the enhanced O2 and H2O chemisorption reactivity of the {11[2 with combining macron]1}, {11[2 with combining macron]2}, {[2 with combining macron]201}, and {[1 with combining macron]101} planes relative to the {10[1 with combining macron]0} and {11[2 with combining macron]0} planes.

Graphical abstract: Opto-electrical properties and chemisorption reactivity of Ga-doped ZnO nanopagodas

Article information

Article type
Paper
Submitted
23 Nov 2012
Accepted
01 Mar 2013
First published
04 Mar 2013

J. Mater. Chem. A, 2013,1, 5524-5534

Opto-electrical properties and chemisorption reactivity of Ga-doped ZnO nanopagodas

H. Chiu and J. Wu, J. Mater. Chem. A, 2013, 1, 5524 DOI: 10.1039/C3TA01209C

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