Controllable electrochemical synthesis of ZnO nanorod arrays on flexible ITO/PET substrate and their structural and optical properties

[Display omitted] ► Vertically aligned ZnO nanorod arrays were grown on flexible transparent substrate by the electrodeposition. ► Morphology and optical properties were controlled by varying the deposition voltage and the concentration of growth solution. ► Crystallinity and photoluminescence were...

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Published in:Applied surface science 2012-10, Vol.259, p.99-104
Main Authors: Ko, Yeong Hwan, Kim, Myung Sub, Yu, Jae Su
Format: Article
Language:English
Subjects:
Antireflection
Arrays
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Crystallinity
Electrochemical deposition
Exact sciences and technology
Flexible substrate
Hydrophilicity
Indium tin oxide
Nanostructure
Optical properties
Photoluminescence
Physics
Polyethylene terephthalates
Seeds
Zinc
Zinc oxide
ZnO nanorod arrays
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container_title Applied surface science
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creator Ko, Yeong Hwan
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description [Display omitted] ► Vertically aligned ZnO nanorod arrays were grown on flexible transparent substrate by the electrodeposition. ► Morphology and optical properties were controlled by varying the deposition voltage and the concentration of growth solution. ► Crystallinity and photoluminescence were studied under different growth conditions. ► Well aligned ZnO nanorod arrays show the good antireflection and wetting properties. ► Optimized ZnO nanorod arrays exhibit an increased diffuse light scattering with keeping high transparency. The structural and optical properties of vertically aligned zinc oxide (ZnO) nanorod arrays (NRAs) which were grown on the flexible indium tin oxide (ITO) coated polyethylene terephthalate (PET) substrate (i.e., ITO/PET substrate) with a thin sputtered ZnO seed layer via the electrochemical deposition method were studied. By changing the applied voltage and zinc nitrate concentration, the height/width and density of ZnO NRAs were controlled, with investigation on their crystallinity and optical properties. To understand the effect of ZnO seed layer on the growth property of ZnO nanorods, they were also grown on ITO/PET without any seed layer. Under an applied cathodic voltage of −2V and zinc nitrate concentration of 10mM, the ZnO NRAs increased the total transmittance up to 88.7% in the visible wavelength region due to the antireflective property and their X-ray diffraction (002) peak intensity was largely enhanced. Additionally, the near band edge emission of ZnO was significantly enhanced in photoluminescence spectrum. The light scattering and surface wetting properties were also explored.
doi_str_mv 10.1016/j.apsusc.2012.06.109
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The structural and optical properties of vertically aligned zinc oxide (ZnO) nanorod arrays (NRAs) which were grown on the flexible indium tin oxide (ITO) coated polyethylene terephthalate (PET) substrate (i.e., ITO/PET substrate) with a thin sputtered ZnO seed layer via the electrochemical deposition method were studied. By changing the applied voltage and zinc nitrate concentration, the height/width and density of ZnO NRAs were controlled, with investigation on their crystallinity and optical properties. To understand the effect of ZnO seed layer on the growth property of ZnO nanorods, they were also grown on ITO/PET without any seed layer. Under an applied cathodic voltage of −2V and zinc nitrate concentration of 10mM, the ZnO NRAs increased the total transmittance up to 88.7% in the visible wavelength region due to the antireflective property and their X-ray diffraction (002) peak intensity was largely enhanced. 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The structural and optical properties of vertically aligned zinc oxide (ZnO) nanorod arrays (NRAs) which were grown on the flexible indium tin oxide (ITO) coated polyethylene terephthalate (PET) substrate (i.e., ITO/PET substrate) with a thin sputtered ZnO seed layer via the electrochemical deposition method were studied. By changing the applied voltage and zinc nitrate concentration, the height/width and density of ZnO NRAs were controlled, with investigation on their crystallinity and optical properties. To understand the effect of ZnO seed layer on the growth property of ZnO nanorods, they were also grown on ITO/PET without any seed layer. Under an applied cathodic voltage of −2V and zinc nitrate concentration of 10mM, the ZnO NRAs increased the total transmittance up to 88.7% in the visible wavelength region due to the antireflective property and their X-ray diffraction (002) peak intensity was largely enhanced. 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The structural and optical properties of vertically aligned zinc oxide (ZnO) nanorod arrays (NRAs) which were grown on the flexible indium tin oxide (ITO) coated polyethylene terephthalate (PET) substrate (i.e., ITO/PET substrate) with a thin sputtered ZnO seed layer via the electrochemical deposition method were studied. By changing the applied voltage and zinc nitrate concentration, the height/width and density of ZnO NRAs were controlled, with investigation on their crystallinity and optical properties. To understand the effect of ZnO seed layer on the growth property of ZnO nanorods, they were also grown on ITO/PET without any seed layer. Under an applied cathodic voltage of −2V and zinc nitrate concentration of 10mM, the ZnO NRAs increased the total transmittance up to 88.7% in the visible wavelength region due to the antireflective property and their X-ray diffraction (002) peak intensity was largely enhanced. 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subjects Antireflection
Arrays
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Crystallinity
Electrochemical deposition
Exact sciences and technology
Flexible substrate
Hydrophilicity
Indium tin oxide
Nanostructure
Optical properties
Photoluminescence
Physics
Polyethylene terephthalates
Seeds
Zinc
Zinc oxide
ZnO nanorod arrays
title Controllable electrochemical synthesis of ZnO nanorod arrays on flexible ITO/PET substrate and their structural and optical properties
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