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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/47555


    Title: 電化學沉積法製備ZnO:Al奈米柱陣列結構及其性質研究;Fabrication of large-area ZnO:Al nanostructure arrays by electrodeposition and their properties
    Authors: 林俊甫;Chun-fu Lin
    Contributors: 化學工程與材料工程研究所
    Keywords: 氧化鋅;電鍍;AZO;ZnO
    Date: 2011-08-26
    Issue Date: 2012-01-05 11:22:56 (UTC+8)
    Abstract: 本研究利用射頻磁控濺鍍系統沉積ZnO:Al透明導電薄膜做為晶種層,成功地以電鍍法成長出一系列長短寬度可調變之ZnO:Al 奈米柱陣列,並針對其晶體結構、表面形貌、光電性質及表面親疏水性質進行一系列的深入觀察與分析,並找出成長大面積ZnO:Al 奈米柱陣列之最佳製程參數。本研究也首度結合奈米球微影技術與電鍍製程,成功地在ZnO:Al透明導電薄膜的表面製備出大面積且尺度大小可調變碗形-蜂巢狀規則有序之ZnO:Al新穎雙奈米結構。而此種新穎ZnO:Al奈米結構陣列在400 nm - 800 nm 波長之穿透率皆可>80%,且在可見光波長範圍最高平均霧度可達27.6%,遠大於平整ZnO:Al薄膜之平均霧度 ( 約0.56 % ) ,在光捕捉效率提昇上效果十分顯著。此相關實驗結果,相信將可提供未來在太陽能光電元件製程開發及設計時之參考。 In this study, ZnO:Al ( AZO ) transparent conducting oxide thin films were deposited on glass by a RF sputtering system to serve as the seed layer for the electrodeposition of AZO nanorods. Large-area AZO nanorod arrays were prepared in the optimal electrodeposition conditions. The microstructue, surface morphology, and physical properties of the AZO nanorods have been investigated. Furthermore, bowl-like AZO nanorod structures were successfully fabricated on AZO films by using nanosphere lithography combined with the electrodeposition technique. The size and periodicity of bowl-like AZO nanorodstructures can be controlled by turning the diameter of nanosphere and the electrodeposition conditions. In the optimum conditions, the total transmittance of the bowl-like AZO nanorods sample was higher than 80 % in the wavelength ranges of 400-800 nm. In addition, the obtained bowl-like AZO nanostructures were found to be very effective in light trapping. The average HAZE of the bowl-like AZO nanorods sample in the range of 400-800 nm is 27.6 %, which is higher than that of the AZO thin films samples ( ~0.56 %) . Since the size and periodicity of bowl-like AZO nanostructures can be readily controlled by turning the diameter of nanosphere and the electrodeposition conditions, the approach presented here can be used to fabricate a variety of AZO nanostructure arrays to enhance the light trapping effects.
    Appears in Collections:[National Central University Department of Chemical & Materials Engineering] Electronic Thesis & Dissertation

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