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Research Article | Open Access

Formation and Optical Properties of ZnO: ZnFe2O4 Superlattice Microwires

Yun Li1,Guozhang Dai1,2,Chunjiao Zhou1Qinglin Zhang1Qiang Wan1Limin Fu3Jianping Zhang3Ruibin Liu2Chuanbao Cao2Anlian Pan2Yunhong Zhang2Bingsuo Zou1,2( )
State Key Laboratory of Chemo/biosensing and Chemometrics (CBSC)Hunan UniversityChangsha410082China
School of Materials Science and Engineering (MSE)Beijing Institute of TechnologyBeijing100081China
Chemistry DepartmentRenmin University of ChinaBeijing100872China

These authors contributed equally to this work.

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Abstract

Pure ZnO hexagonal microwires and Fe(Ⅲ)-doped ZnO microwires (MWs) with a novel rectangular cross section were synthesized in a confined chamber by a convenient one-step thermal evaporation method. An oriented attachment mechanism is consistent with a vapor–solid growth process. Photoluminescence (PL) and Raman spectroscopy of the Fe(Ⅲ)-doped ZnO MWs and in situ spectral mappings indicate a quasi-periodic distribution of Fe(Ⅲ) along a one-dimensional (1-D) superlattice ZnO: ZnFe2O4 wire, while PL mapping shows the presence of optical multicavities and related multimodes. The PL spectra at room temperature show weak near-edge doublets (376 nm and 383 nm) and a broad band (450–650 nm) composed of strong discrete lines, due to a 1-D photonic crystal structure. Such a 1-D coupled optical cavity material may find many applications in future photonic and spintronic devices.

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Keywords

ZnOsuperlattice microwiremicro-photoluminescencemicro-Raman spectroscopy

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Nano Research
Volume 3 Issue 5,
May 2010
Pages 326-338
DOI: 10.1007/s12274-010-1036-y

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Cite this article:
Li Y, Dai G, Zhou C, et al. Formation and Optical Properties of ZnO: ZnFe2O4 Superlattice Microwires. Nano Research, 2010, 3(5): 326-338. https://doi.org/10.1007/s12274-010-1036-y

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Received: 28 January 2010
Revised: 05 March 2010
Accepted: 05 March 2010
Published: 01 May 2010
© The Author(s) 2010

This article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.