English  |  正體中文  |  简体中文  |  全文筆數/總筆數 : 80990/80990 (100%)
造訪人次 : 41255518      線上人數 : 102
RC Version 7.0 © Powered By DSPACE, MIT. Enhanced by NTU Library IR team.
搜尋範圍 查詢小技巧:
  • 您可在西文檢索詞彙前後加上"雙引號",以獲取較精準的檢索結果
  • 若欲以作者姓名搜尋,建議至進階搜尋限定作者欄位,可獲得較完整資料
  • 進階搜尋


    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/85148


    題名: 單源熱蒸鍍全無機鈣鈦礦薄膜與發光二極體之研究;The Study of Single-source Vacuum Deposition of Inorganic Perovskite Thin Film and Light Emitting Diode
    作者: 黃天賜;Huang, Tain-Shi
    貢獻者: 機械工程學系
    關鍵詞: 鈣鈦礦;單源熱蒸鍍;鈣鈦礦薄膜;發光二極體;Perovskite;Single-source Vacuum Deposition;Perovskite Thin Film;Light Emitting Diode
    日期: 2021-01-26
    上傳時間: 2021-03-18 17:49:12 (UTC+8)
    出版者: 國立中央大學
    摘要: 全無機鹵化物鈣鈦礦材料,不僅具有良好的光電特性,還有良好的環境耐候性,因此大量的研究開始投入研究這個極具發展潛力的材料,將其用來提升太陽能電池與發光二極體等光電元件。目前大部分的製程以溶液旋塗法為主,但是薄膜的平整性及溶劑的汙染對元件影響極大,於是有人開始利用熱蒸鍍的方式製作。在本研究中我們亦選擇熱蒸鍍製程進行研究,不過有別於目前科學界常使用兩種原料的雙源共蒸鍍製程,我們則是利用單一蒸鍍源並且搭配CsPbBr3粉末,有效改善雙源共蒸鍍時必須很精準控制蒸鍍原料比例的問題。
    本論文首先證明利用單源熱蒸鍍CsPbBr3粉末所得之薄膜品質優於單純將CsBr和PbBr2均勻混合的粉末;接著我們開始提升CsPbBr3薄膜的品質,改善薄膜中CsPbBr3的衍生相: CsPb2Br5與Cs4PbBr6,由於這兩者過量的存在可能會導致薄膜的電性變差,影響到發光二極體元件最終的效率,因此我們調整熱處理的溫度及時間,來消除薄膜中的衍生相,提升鈣鈦礦薄膜的品質,並且應用在發光二極體中。
    除此之外,目前大部分的鈣鈦礦發光二極體之電子傳輸層與電洞傳輸層,仍使用有機材料,這些材料除了環境耐候性差以及價格昂貴之外,不論在製造還是丟棄時,對環境都有很大的污染性,為了改善這個問題,本研究採用低環境汙染、價格便宜且耐候性佳之氧化鋅與氧化鉬等金屬氧化物來取代有機電子傳輸層與電洞傳輸層,經過UPS的量測確定能階後,將其作為發光二極體的電子、電洞傳輸層。
    本論文利用單源熱蒸鍍法製作高品質之鈣鈦礦(CsPbBr3)主動層薄膜, 並藉由熱蒸鍍金屬氧化物作為電子傳輸層(氧化鋅)與電洞傳輸層(氧化鉬),成功製作出在2.7V的電壓以及5.5mA的電流時時具有152cd / m2,EQE為2.7% 的全無機鈣鈦礦(CsPbBr3)發光二極體元件,研究採用全無機之製程與方法可提供未來從事相關研究人員參考與應用。
    ;All-inorganic perovskite has not only good optoelectronic characteristics but great weather resistance, so lots of researches are being conducted on this material full of potential development to enhance optoelectronic devices such as solar cells and light-emitting diode(LED). We choose thermal evaporation likewise, but different from the two common materials used in dual source co-evaporation deposition, we opt for a single source with CsPbBr3 powder, which effectively solves the problem of accurate ratio control of evaporation material when conducting dual source co-evaporation deposition.
    First, we prove that after single-source evaporation deposition the thin film’s quality of CsPbBr3 powder is better than the combination powder of CsBr and PbBr2. Then, we try to improve the quality of CsPbBr3 thin film to solve the derivative phase, CsPb2Br5 and Cs4PbBr6.The excessive amount of CsPb2Br5 and Cs4PbBr6 is likely to make the electrical property of thin film decline and affect the efficiency of LED; accordingly, we eliminate the derivative phase in the thin film and improve the quality by adjusting the temperature and timing of heat treatment, which is used in LED.
    We used the metal oxides which are easily acquired and less pollutant, after their energy gap being confirmed through the measurement of UPS, are utilized to construct ETL and HTL in LED and then create a totally inorganic LED component. Under 2.7 volts and 5.5mA, the component has a luminance of 152cd/m2 and EQE is 2.7% shown on a luminance meter.
    This study improves the manufacturing process by single-source evaporation deposition. Inorganic LED is created with a thin film whose quality is bettered through heat treatment and metal oxides which are easily acquired and less pollutant as the element in ETL and HTL. Most importantly, this is extremely helpful for the development of commercialization in the future.
    顯示於類別:[機械工程研究所] 博碩士論文

    文件中的檔案:

    檔案 描述 大小格式瀏覽次數
    index.html0KbHTML165檢視/開啟


    在NCUIR中所有的資料項目都受到原著作權保護.

    社群 sharing

    ::: Copyright National Central University. | 國立中央大學圖書館版權所有 | 收藏本站 | 設為首頁 | 最佳瀏覽畫面: 1024*768 | 建站日期:8-24-2009 :::
    DSpace Software Copyright © 2002-2004  MIT &  Hewlett-Packard  /   Enhanced by   NTU Library IR team Copyright ©   - 隱私權政策聲明