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研究生: 周俊賢
論文名稱: 有機半導體駢苯衍生物(PTCDI)之光電性質研究
Electro-optical properties of Organic Semiconductor-Perylene Diimide Derivative (PTCDI)
指導教授: 陸健榮
學位類別: 碩士
Master
系所名稱: 物理學系
Department of Physics
論文出版年: 2008
畢業學年度: 96
語文別: 中文
論文頁數: 126
中文關鍵詞: 有機半導體駢苯衍生物電場調制光譜光激螢光熱活化非輻射複合
英文關鍵詞: PTCDI, HOMO-LUMO
論文種類: 學術論文
相關次數: 點閱:141下載:4
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  • 本論文以電場調制吸收光譜(ER),電流-電壓曲線(I-V),以及光激螢光實驗(PL)來探討N型有機半導體-PTCDI鏈結不同烷基鍵(PTCDI-
    CxH2x+1 , x=2,3,4,5,6,7,8 )的光電特性。
    量測I-V曲線以得知樣品內部電場分佈。無光照情況下,樣品內部電場為類蕭特基二極體分佈(Schottky-diode-like distribution);而在照光情況下,樣品產生光電流,內部電場成空間電荷侷限分佈(Space
    -charge-limited distribution),在施加調制電壓範圍內I-V為線性。
    在電場調制吸收光譜實驗中,對樣品施加電場產生史塔克效應(Stark effect)後,得到的譜形結構主要以高斯一次及二次微分譜形組成。比較吸收光譜及電場調制光譜所得各躍遷能量,與文獻對照後得知各樣品的HOMO-LUMO躍遷應為2.2 eV左右。另外,調制光譜強度與施加的交流調制電壓成正比關係。
    由光激螢光實驗得到,樣品螢光躍遷能量皆低於HOMO-LUMO躍遷能量,且螢光強度與溫度的變化關係可以用熱活化非輻射複合模型(thermally activated non-radiative recombination)來解釋。

    In this thesis, we used Electroabsorption Spectroscopy(ER), I-V Curve and Photoluminscence(PL) to investigate the electro-optical properties of Perylene Diimide Derivative-PTCDI with various Alkyl (PTCDI-CxH2x+1, x = 2,3,4,5,6,7,8).

    We can understand the internal electric field distribution by I-V Curve measurement. Without illumination, the electric field is Schottky diode like distribution in the organic layer; nevertheless, with the lighting, it is Space charge limited electric field distribution. Between the range of the applied voltage(+1.4 ~ -1.4 Vac), the I-V Curve is linear behavior.

    In ER measurements, a AC voltage as external electric field is applied to the sample, and it will cause the Stark effect. The structures of the spectrum are formed with the first and second order differential of Gauss functions. Compare with absorption measurement and the reference, the structure in 2.2 eV should be the HOMO-LUMO transition. Further, the strength of ER is direct proportion to the applied AC voltage.

    In PL measurement, the transitions all below the HOMO-LUMO transition. The relation between the strength of PL and temperature can explain by the thermal activated non-radiative recombination model.

    致 謝 摘 要 Ⅰ Abstract Ⅱ 目 錄 Ⅲ 第一章 簡介 1 第二章 原理介紹 5 2.1 激子躍遷 5 2.2 電子躍遷理論 12 2.3 物質光學常數 16 2.4 電場調制光譜基本原理 21 2.5 史塔克效應 27 2.5.1 線性史塔克效應 29 2.5.2 二次史塔克效應 31 2.5.3 史塔克效應於電場調制光譜上的應用 34 2.6 電場調制光譜實驗原理 38 2.6.1 透射實驗 39 2.6.2 反射實驗 41 2.7 不同內部電場分佈下的電場調制光譜訊號 43 2.7.1 均勻電場分佈(Homogeneous electric field distribution) 44 2.7.2 空間電荷侷限分佈(Space-Charge-Limited distribution) 46 2.7.3 類蕭特基二極體分佈(Schottky diode like distribution) 48 2.7.4 一般分佈(General distribution) 51 2.8 光激螢光實驗基本原理 54 第三章 樣品與實驗裝置 57 3.1 PTCDI簡介與樣品結構 57 3.1.1 PTCDI 57 3.1.2 樣品結構 64 3.2 吸收光譜實驗裝置與步驟 66 3.3 電場調制光譜實驗裝置與步驟 68 3.4 光激螢光實驗裝置與步驟 71 第四章 實驗結果分析與討論 73 4.1 樣品內部電場分佈 73 4.2 吸收光譜 81 4.3 電場調制光譜處理與分析 86 4.3.1 背景值處理 88 4.3.2 光譜擬合 89 4.3.3 調制電壓對光譜的影響 94 4.4 光激螢光譜圖分析 98 第五章 結論與展望 107 5.1 實驗總結 107 5.2 未來展望 109 參考文獻 111

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