Synthesis of ZnO nanocrystals with novel hierarchical structures via atmosphere pressure physical vapor deposition method

The search for hierarchically organized ZnO nanocrystals have been intense in recent years, due to both fundamental interest in nanocrystal growth subjects and their potential applications as components for building nanodetectors, optoelectronic, vacuum microelectronic, and spintronic nanodevices. W...

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Published inJournal of crystal growth Vol. 294; no. 2; pp. 184 - 190
Main Authors Yan, Youguo, Zhang, Ye, Meng, Guowen, Zhang, Lide
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 04.09.2006
Elsevier
Subjects
A1. Low dimensional structures
A3. Physical vapor deposition processes
B1. Nanomaterials
B2. Semiconducting II–VI materials
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Ii-vi semiconductors
Materials science
Nanocrystalline materials
Nanoscale materials and structures: fabrication and characterization
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Photoluminescence
Physics
81.05.Dz
A1. Low dimensional structures
B2. Semiconducting II–VI materials
81.07.−b
A3. Physical vapor deposition processes
B1. Nanomaterials
68.70.+w
Scanning electron microscopy
Fluctuations
Inorganic compounds
A1. Low dimensional structures; A3. Physical vapor deposition processes; B1. Nanomaterials; B2. Semiconducting II-VI materials
Transition element compounds
Photoluminescence
Binary compounds
Supersaturation
81.07.-b; 68.70.+w; 81.05.Dz
Crystal growth from vapors
XRD
Nanostructures
Experimental study
Zinc oxides
II-VI semiconductors
Growth mechanism
Physical vapor deposition
Wurtzite structure
Nanostructured materials
Nanocrystal
X-ray photoelectron spectra
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Abstract The search for hierarchically organized ZnO nanocrystals have been intense in recent years, due to both fundamental interest in nanocrystal growth subjects and their potential applications as components for building nanodetectors, optoelectronic, vacuum microelectronic, and spintronic nanodevices. We reported the first observation of a variety of novel nanostructures, such as nanocandle arrays, wine-bottle-shaped rod arrays, nanorivet arrays, periodic diamond-string and needle arrays, nanofern and needle arrays, tooth-shaped belt, spinal-shaped nanostructures and bamboo-shaped nanorod via an atmosphere pressure physical vapor deposition method. The unique feature of our method is atmosphere chamber pressure, which can induce chaos and fluctuation of source vapor and facilities multiply growth mechanisms to have competing dominating effects on the crystal growth of ZnO. The SEM and photoluminescence spectra confirm that those nanostructured ZnO crystals possess satisfactory structural and optical qualities.
AbstractList The search for hierarchically organized ZnO nanocrystals have been intense in recent years, due to both fundamental interest in nanocrystal growth subjects and their potential applications as components for building nanodetectors, optoelectronic, vacuum microelectronic, and spintronic nanodevices. We reported the first observation of a variety of novel nanostructures, such as nanocandle arrays, wine-bottle-shaped rod arrays, nanorivet arrays, periodic diamond-string and needle arrays, nanofern and needle arrays, tooth-shaped belt, spinal-shaped nanostructures and bamboo-shaped nanorod via an atmosphere pressure physical vapor deposition method. The unique feature of our method is atmosphere chamber pressure, which can induce chaos and fluctuation of source vapor and facilities multiply growth mechanisms to have competing dominating effects on the crystal growth of ZnO. The SEM and photoluminescence spectra confirm that those nanostructured ZnO crystals possess satisfactory structural and optical qualities.
Author Zhang, Lide
Meng, Guowen
Zhang, Ye
Yan, Youguo
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  surname: Yan
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  surname: Zhang
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  givenname: Lide
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  fullname: Zhang, Lide
  organization: Key Laboratory of Materials Physics, Institute of Solid State Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei 230031, PR China
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Issue 2
Keywords 81.05.Dz
A1. Low dimensional structures
B2. Semiconducting II–VI materials
81.07.−b
A3. Physical vapor deposition processes
B1. Nanomaterials
68.70.+w
Scanning electron microscopy
Fluctuations
Inorganic compounds
A1. Low dimensional structures; A3. Physical vapor deposition processes; B1. Nanomaterials; B2. Semiconducting II-VI materials
Transition element compounds
Photoluminescence
Binary compounds
Supersaturation
81.07.-b; 68.70.+w; 81.05.Dz
Crystal growth from vapors
XRD
Nanostructures
Experimental study
Zinc oxides
II-VI semiconductors
Growth mechanism
Physical vapor deposition
Wurtzite structure
Nanostructured materials
Nanocrystal
X-ray photoelectron spectra
Language English
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Snippet The search for hierarchically organized ZnO nanocrystals have been intense in recent years, due to both fundamental interest in nanocrystal growth subjects and...
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SubjectTerms A1. Low dimensional structures
A3. Physical vapor deposition processes
B1. Nanomaterials
B2. Semiconducting II–VI materials
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Ii-vi semiconductors
Materials science
Nanocrystalline materials
Nanoscale materials and structures: fabrication and characterization
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Photoluminescence
Physics
Title Synthesis of ZnO nanocrystals with novel hierarchical structures via atmosphere pressure physical vapor deposition method
URI https://dx.doi.org/10.1016/j.jcrysgro.2006.06.049
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