簡易檢索 / 詳目顯示

研究生: 黃文澤
Huang, Wen-Tse
論文名稱: 脈衝雷射蒸鍍法製備氧化銪鋅薄膜之探討:結構、光學與磁性研究
Study of Europium-doped ZnO Thin Films Grown by pulsed-laser deposition:Structural, Optical, and Magnetic Properties
指導教授: 駱芳鈺
Lo, Fang-Yuh
學位類別: 碩士
Master
系所名稱: 物理學系
Department of Physics
論文出版年: 2016
畢業學年度: 105
語文別: 中文
論文頁數: 44
中文關鍵詞: 稀磁性半導體氧化鋅順磁性
英文關鍵詞: DMS, ZnO, Eu, pulsed-laser deposition
DOI URL: https://doi.org/10.6345/NTNU202204628
論文種類: 學術論文
相關次數: 點閱:218下載:20
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

本論文利用脈衝雷射沉積法在氧氣壓力3×10-1 mbar、溫度750°C環境下,在c方向的藍寶石基板上製備厚度100 nm的氧化銪鋅薄膜,其中銪的原子莫耳濃度介於0~15 %之間、雷射能量密度1.6 J/cm2,檢測氧化銪鋅薄膜的結構、光學以及磁特性。
利用XRD分析樣品成份發現所有實驗比例皆小於配方比例。X光繞射圖譜和拉曼光譜顯示樣品沒有雜晶相產生,隨著Eu摻雜濃度上升樣品粒徑大小減少。純氧化鋅PL光譜只有本質發光,缺陷發光是Eu摻雜造成,為氧間隙、鋅空缺、和氧空缺。而高濃度的氧化銪鋅(8%、10%、15%)樣品多了鋅間隙發光機制。藉由橢圓偏振光譜和穿透光譜發現銪摻雜的比例上升能隙有逐漸變大的趨勢。藉由SQUID量測3 %、5 %、8 %的氧化銪鋅薄膜在室溫及5 K的溫度下表現出順磁性。

Pulsed-laser deposition (PLD) was applied to grow 100 nm thick Europium (Eu)-
doped ZnO (Eu:ZnO) thin films on c-sapphire substrate under 3×10-1 mbar of Oxygan. The Eu concentration ranges from 0 to 15 at.%, temperature of substrate is 750°C, and laser fluence is 1.6 J/cm2. The deposition rate, structural properties, optical properties and magnetic properties of Eu:ZnO thin films were investigated in this study.
Eu concentrations determined by the X-ray photoelectron spectroscopy (XPS) were slightly smaller than the nominal concentration. X-ray diffraction (XRD) and Raman-scattering spectra revealed Eu incorporation into ZnO without secondary phase. As Eu density increased, the grain size of Eu:ZnO thin films decreased. Photoluminescence (PL) spectroscopy showed that all the thin films had oxygen interstitials , zinc vacancies and oxygen vacancies. In addition, high Eu concentration thin films (8%,10%,15%) had zinc interstitials. By both spectroscopic ellipsometry and optical transmission spectroscopy, the direct band gap of Eu-doped ZnO thin films was found to increase with increasing Eu concentration. At T = 5 K and 300 K ,magnetic investigations with a superconducting quantum interference device(SQUID) magnetometer showed paramagnetism for all Eu-doped ZnO thin films.

目錄 III Chapter 1 緒論 1 Chapter 2 背景知識 3 2.1 氧化鋅(ZnO)、銪(Eu)與藍寶石基板(Sapphire)化合物特性 3 5 2.2脈衝雷射蒸鍍法(Pulsed Laser Deposition) 5 2.2.1 原理 5 2.2.2 PLD鍍膜系統 6 2.3光致螢光(Photoluminescence) 7 2.3.1基本原理 7 2.3.2氧化鋅PL發光機制 9 2.4 X光繞射(X-Ray Diffraction) 11 2.4.1原理 11 2.4.2布拉格繞射 12 2.4.3 X-ray繞射分析 13 2.5拉曼散射光譜(Raman-scattering spectroscopy) 14 2.5.1拉曼散射光譜 14 2.5.2晶格振動模式 15 2.6 X光光電子能譜儀(X-ray photoelectron spectroscopy) 16 2.6.1原理 16 2.6.2 XPS成分比例分析 17 2.7磁性簡介 18 Chapter 3實驗過程 21 3.1鍍膜條件 21 3.2靶材製備 21 3.3藍寶石基板清洗 22 3.4鍍膜流程 22 Chapter 4 結果與討論 23 4-1氧化鋅摻雜各濃度銪元素鍍膜速率分析: 23 4-2氧化鋅摻雜不同濃度銪元素拉曼散射光譜分析 24 4-3氧化鋅摻雜不同濃度銪元素XRD分析 26 4-4 XPS結果分析 28 4.5 PL結果分析 29 4.6 Ellipsometry &Transmittance結果分析 31 4.6.1 Ellipsometry 31 4.6.2 Transmittance 33 4.7 SQUID結果分析 36 Chapter 5 總結與未來展望 39 參考文獻 41 附錄 43 SEM. 3%、5%、10%、15%氧化銪鋅 SEM圖譜 43 各比例氧化銪鋅磁元二向性(MCD)圖型: 44

[1] Rezq Naji Aljawfi, and S. Mollah, J. Magn. Magn. Mater. 323, 3126 (2011).
[2] 駱芳鈺,台灣磁性技術技術協會會訊,50期 (2009)。
[3] R. S. Ajimsha, A. K. Das, B. N. Misra, and L. M. Kukreja, Physica E 42, 1838 (2010).
[4] Stephen Blundell, Magnetism in Condensed Matter, Oxford University Press (2001).
[5] R. Hull, C. Jagadish, R. M. Osgood, Jr. Parisi, Z. Wang and H. Warlimont, Zinc Oxide: From Fundamental Properties Towards Novel Applications, Springer (2010).
[6] Ü. Özgür, Ya. I. Alivov, C. Liu, A. Teke, M. A. Reshchikov, S. Doğan, V. Avrutin, S.-J. Cho, and H. Morkoç, J. Appl. Phys. 98, 41301 (2005).
[7] 維基百科,搜尋關鍵字 銪。
[8] 簡志峰,脈衝雷射蒸鍍法蒸鍍氧化鋅及氧化釓鋅薄膜,國立臺灣師範大學 (2011)。
[9] 吳志文,氮化鎵:氧化鋅固溶液之光學特性研究,國立海洋大學光電研究所 (2010)。
[10] 彭成基,低溫水溶液法合成氧化鋅奈米柱之發光二極體,國立臺灣師範大學 (2008)。
[11] J. C. Fan, K. M. Sreekanth, Z. Xie, S. L. Chang, and K. V. Rao, Prog. Mater. Sci. 58, 874 (2013).
[12] Yuming Sun, Pengshou Xu, Chaoshu Shi, Faqiang Xu, Haibin Pan, and Erdong Lu, J. Electron Spectrosc. Relat. Phenom. 114-116, 1123 (2001).
[13] N. Kasai and M. Kakudo, X-Ray Diffraction by Macromolecules, Springer (2005).
[14] B. D. Cullity and S. R. Stock, Elements of X-Ray Diffraction 3rd Edition, Addison-Wesley (2004).
[15] P. Debye and P. Scherrer, Physik. Z 18, 291 (1917).
[16] M. Ahmad, E. Ahmed, Z. L. Hong, J. F. Xu, N. R. Khalid, A. Elhissi, and W. Ahmed, Appl. Surf. Sci. 274, 273 (2013).
[17] Jinqiu Yu , Lei Cui, Huaqiang He, Shihong Yan, Yunsheng Hu, and Hao Wu, J. Rare Earths 32, 1 (2014).
[18] J. F. Moulder, W. F. Stickle, P. E. Sobol, and K. D. Bomben, Handbook of X-ray Photoelectron Spectroscopy, Perkin-Elmer Corp (1992).
[19] Sieglinde Marie, Lousie Pfaendler, Giorgio Ercolano, Judith L. MacManus-Driscoll, and J Andrew, ECS Trans. 50, 73 (2013).
[20] David Halliday and Robert Resnick, Fundamentals of Physics Extended eighth edition, John Wiley & Sons Inc (2008).
[21] 莊桓嘉,氧化鈥鋅/氧化鋅雙層膜結構之物性研究(碩士論文),國立臺灣師範大學 (2014)。
[22] Charles Kittel, Introduction to Solid State Physics eighth edition, John Wiley & Sons Inc (2005).
[23] 黃承德,離子佈植與摻雜對氮化鎵和氧化鋅薄膜光譜性質之影響,國立臺灣師範大學 (2012)。

下載圖示
QR CODE