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    題名: 電漿輔助原子層沉積法鍍製抗反射膜於微型塑膠透鏡;Plasma Enhanced Atomic Layer Deposition of Antireflection coatings on Micro plastic lens
    作者: 劉子凡;Liu, Tzu-Fan
    貢獻者: 光電科學與工程學系
    關鍵詞: 電漿輔助原子沉積;抗反射膜;Plasma Enhanced Atomic Layer Deposition;Antireflection coating
    日期: 2020-08-20
    上傳時間: 2020-09-02 15:46:16 (UTC+8)
    出版者: 國立中央大學
    摘要: 近年來半導體產業的快速發展對線寬的要求越來越小,原子層沉積
    技術因具有極佳的均勻性和保形性,隨即快速發展,應用領域也越來
    越廣泛。
    在光學方面的應用,隨著光學設計架構越來越複雜,出現了越來越
    多的自由曲面或是微結構的透鏡,來取代光學元件的件數,而這些微
    結構的光學元件在製造時使用成本較低的塑膠(如 PMMA、PC、Zeonex)
    替代玻璃。
    本實驗使用電漿輔助原子層沉積法鍍製,探討了單層膜在 60℃製程
    下折射率與消光係數在不同功率和時間下的趨勢,也分析前驅物在
    60℃製程下的反應性,並使用 X 射線光電子能譜儀分析薄膜中殘留的
    碳、氮比例,推測其雜質是否影響光學性質。將不同參數的抗反射膜
    鍍製於塑膠基板上測試其附著性與是否膜裂,最後鍍製於微型塑膠透
    鏡上,並使用顯微鏡光譜儀量測透鏡各點在波段 420nm 到 680nm 抗反
    射光譜圖及均勻性,平均反射率約為 0.78%。;In recent years, due to the rapid development of the semiconductor
    industry, the requirements for line width have become lesser. Atomic Layer
    Deposition technology developed rapidly because of its excellent
    uniformity and shape retention.
    In optical applications, as the optical design structure becomes more
    complex, more Freeform surface or structured lenses have appeared to
    replace of optical components. In order to reduce costs during
    manufacturing, plastic substrates (such as PMMA, PC, Zeonex) are used
    instead of glass.
    In this experiment, plasma-enhanced atomic layer deposition method
    was used. The trend of refractive index and extinction coefficient of
    single-layer film under 60℃ process with different power and process time
    was discussed. The reactivity of the precursors at 60℃ was also analyzed.
    The use of XPS to analyze the residual carbon and nitrogen ratio in the
    film to infer whether its impurities affect the optical properties. The
    anti-reflection (AR) coating with different parameters is deposited on the
    plastic substrates to test its adhesion and film cracking.
    Finally, the AR film coated on the micro plastic lens is used to
    measure the anti-reflection spectrum and uniformity of each point of the
    lens in the wavelength range of 420 nm to 680 nm with an optical
    microscope spectrometer. The average reflectance is about 0.78%.
    顯示於類別:[光電科學研究所] 博碩士論文

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