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研究生: 楊廷勛
Yang, Ting-Xun
論文名稱: 鈷/石墨烯的電化學與磁特性研究
Electrochemical and Magnetic Properties of Cobalt / Graphene
指導教授: 蔡志申
Tsay, Jyh-Shen
張丞勛
Chang, Cheng-Hsun
學位類別: 碩士
Master
系所名稱: 物理學系
Department of Physics
論文出版年: 2020
畢業學年度: 108
語文別: 中文
論文頁數: 128
中文關鍵詞: 石墨烯電位誘導磁異向性循環伏安
DOI URL: http://doi.org/10.6345/NTNU202000414
論文種類: 學術論文
相關次數: 點閱:143下載:0
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    • 第一章 緒論 1 第二章 實驗基本原理 6 2-1 薄膜磊晶成長理論與物性介紹 6 2-1-1薄膜成長理論 6 2-1-2銅、鈷、石墨烯的物性介紹 7 2-2 電化學原理 9 2-2-1法拉第電解定律(Faraday’s law of electrolysis) 9 2-2-2電雙荷層(electrical double layer, EDL ) 10 2-2-3電化學反應和電子轉移 13 2-2-4能斯特方程 15 2-2-5陰離子特異性吸附(specific anion adsorption) 19 2-3 磁性理論 21 2-3-1磁性物質種類 22 2-3-2鐵磁性物質的特性 23 2-3-3磁異向性理論 25 第三章 實驗儀器介紹 31 3-1超高真空系統 31 3-1-2濺鍍 31 3-2電化學設備 33 3-2-1電化學電鍍槽 33 3-2-2電化學循環伏安儀 34 3-2-3磁光科爾效應器材與元件 40 3-2-4磁光科爾效應儀器架設 41 3-2-5磁光科爾效應理論(magneto-optic Kerr effect) 44 3-3貴重儀器 47 3-3-1原子力顯微鏡(Atomic Force Microscope) 47 3-3-2 科爾顯微鏡 47 3-4實驗方法 49 3-4-1 實驗藥品介紹 49 3-4-2 樣品製備 50 3-4-3 EC-MOKE實驗前處理及實驗步驟 50 第四章 實驗結果與討論 52 4-1 Co / Gra / Cu的大氣環境下測量之磁性與表面形貌 52 4-2 Gra / Cu與Co / Gra / Cu於1、10、100 mM KCl + 0.1mM HCl溶液中的氧化還原研究 65 4-2-1 確認Co在1、10、100 mM KCl + 0.1mM HCl的氧化還原研究 67 4-2-2 確認Cu與Co / Cu在1、10、100 mM KCl + 0.1mM HCl 的氧化還原研究 71 4-2-3 確認Gra / Cu在1、10、100 mM KCl + 0.1mM HCl 的氧化還原研究與Cu溶解厚度 83 4-2-4 確認Co/Gra / Cu在1、10、100 mM KCl + 0.1mM HCl 的氧化還原研究與Cu和Cu溶解厚度 89 4-3 Co / Gra / Cu在10、100 mM KCl + 0.1mM HCl 水溶液下的電位磁控制特性實驗 98 4-3-1 固定電位下,KCl濃度對於20、30 nm Co / Gra / Cu 在溶液下的變化 101 4-3-2固定KCl濃度下,電位對於20、30 nm Co / Gra / Cu 在溶液下的變化 110 4-3-3在 - 500 mV電位時,Cl吸附狀態對磁特性影響 120 4-3-4 未來展望 123 第五章 結論 124 第六章 參考資料與文獻 125

    [1] N. Rougemaille, A. T. N'Diaye, J. Coraux, C. Vo-Van, O. Fruchart, and A. K. Schmid, Perpendicular magnetic anisotropy of cobalt films intercalated under grapheme, Appl. Phys. Lett. 101, 142403 (2012)

    [2] Paek, E.; Pak, AJ; Hwang, GS A Computational Study of the Interfacial Structure and Capacitance of Graphene in [BMIM][PF6] Ionic Liquid. J. Electrochem. Soc. 2013 , 160, A1-A10

    [3] Stoller, MD; Magnuson, CW; Zhu, YW; Murali, S.; Suk, JW; Piner, R.; Ruoff, RS Interfacial capacitance of single layer graphene. Energ Environ. Sci. 2011 , 4, 4685- 4689

    [4] T.Mangen , H.S. Bai , J.S.Tsay , Structures and magnetic properties for electrodeposited Co ultrathin films on copper, J.Magn.Magn.Mater.322, 1863 (2010)

    [5] M.Weisheit, S.Fähler , A.Marty , Y.Souche ,C.poinsignon and D.Givord, Electric field-induced modification of magnetism in thin-film ferromagnets, Science 315,349 (2007)

    [6] Cheng-Hsun-Tony Chang, Wei-Hsu Kuo, Yu-Chieh Chang, Jyh-Shen Tsay and Shueh-Lin Yau, Tuning coercive force by adjusting electric potential in solution processed Co/Pt(111) and the mechanism involved, Scientific Reports 7, 43700 (2017)

    [7] P. Broekmann, M.Wilms, M. Kruft, C.Stuhlmann and K.Wandelt , In-situ STM investigation of adsorbate structures on Cu (111) in sulfuric acid electrolyte, Journal of Electroanalytical Chemistry 467, 307-324 (1999)

    [8] Patrick G. Hartley,Helmut Thissen,Tharshan Vaithianathan and Hans J. Griesser , A Surface Masking Technique for the Determination of Plasma Polymer Film Thickness by AFM, Plasmas and Polymers 5, 47–60(2000)

    [9] Bland, J.A.C. (Eds): Ultrathin Magnet. StructuresI&II, Springer-Verlag, Berlin Heidelberg (1994)

    [10] 謝祥予,國立台灣師範大學物理所碩士論文(2018)

    [11] PJ Van der Zaag, Yumi Ijiri, Julie A Borchers, LF Feiner, RM Wolf, JM Gaines, RW Erwin and MA Verheijen, Difference between Blocking and Néel Temperatures in the Exchange Biased System, Phys. Rev. Let., 84, 6102(2000)

    [12] W.M.Haynes, T.J. Bruno, D.R.Lide, CRC Handbook of Cheistry and Physics, 95th Edition, Internet Version (2015)

    [13] M, Chase, Binary Alloy Phase DiaGrams, ASM international, Ohio (1996)

    [14] Anatholy V.Chichagov, Crystallo Graphic and Crystallochemical Database for Minerals and their Structural Analogues, Chernogolovka, IEM RAS (2006)

    [15] Joseph R. Davis, Nickel, Cobalt, and Their Alloys, ASM International (2000)

    [16] A.K.Geim, Graphene: Status and Prospects, Science 324, 1530 (2009)

    [17] Lee C, Wei X, Jeffrey W. Kysar and James Hone, Measurement of the Elastic Properties and Intrinsic Strength of Monolayer Graphene,Science.321,5887(2008)

    [18] R.R.Nair, P.Blake, A.N.Grigorenko, K.S.Novoselov, T.J.Booth, T.Stauber, N.MR.Peres and A.K.Geim1, Fine Structure Constant Defines Visual Transparency of Graphene, Science 320, 5881(2008)

    [19] Physicists Show Electrons Can Travel More Than 100 Times Faster in Grphene University Communications Newsdesk,University of Maryland.N.p.,09(2013)

    [20] 胡啟章,電化學原理與方法,五南圖書,台北(2002)。

    [21] 田福助,電化學-理論與應用,高立圖書有限公司,台灣(1987)。

    [22] 吳浩青,電化學動力學,九樺出版社,台灣(2001)。

    [23] A.J.Bard and L.R.Faulkner, Electrochemical Methods-Fundamentals and Applications, 2nd edit, John Wiley & Sons, INC, New York (2000)

    [24] C.E.Housecroft, A.G.Sharpe, Inorganic chemistry, 2nd ed, Pearson Education Limited,Edinburgh Gate (2005)

    [25] Peter Atkins. Physical Chemistry, 6th edition, W.H. Freeman and Company, New York. (1997)

    [26] N.T.M.Hai, dissertation, Rheinische Friedrich-Wilhelms-University Bonn (2007)

    [27] Paul Ruetschi, Silver–silver sulfate reference electrodes for lead-acid batteries, Journal of Power Sources 113, 363-370 (2003)

    [28] 金重勳,磁性技術手冊,中華民國磁性技術協會,新竹(2002)

    [29] B.D.Culity, Introduction to Magnertism and Magnetic Materials, Addison Wesley, New York (1972)

    [30] D.Jiles, Introduction to Magnetism and Magnetic Materials, 1st edit, Chapman and Hall, London (1991)

    [31] F. Huang, M.T. Kief, G.J. Mankey, R.F. Willis, Phys. Rev.B 49 (1994) 3962.

    [32] M.T. Johnson, P. J. H. Bloemen and J, J de Vries, Magnetic anisotropy in metallic multilayers, Rep.prog.Phys.59, 1409 (1996)

    [33] R. C. O'Handley, Modern Magnetic Materials: Principles and Applications (2000)

    [34] N. Tournerie, A. P. Engelhardt, F. Maroun, and P. Allongue , Influence of the surface chemistry on the electric-field control of the magnetization of ultrathin films. Phys. Rev. B 86, 104434 (2012)

    [35] W. C. Lin, P. C. Chang ,C. J. Tsai, T. C. Shieh ,and F. Y. Lo, Magnetic anisotropy in metallic multilayersVoltage-induced reversible changes in the magnetic coercivity of Fe/ZnO heterostructures, Appl .Phys. Lett.104,062411(2014)

    [36] 許智瑜,國立台灣師範大學物理所碩士論文(2012)

    [37] 曾鈺潔,國立台灣師範大學物理所碩士論文(2011)

    [38] S. P. Jiang and A. C. C. Tseung, Reactive Deposition of Cobalt Electrodes II. Role of Bubbling Oxygen, J. Electrochem. Soc. 137, 3381-3386(1990)

    [39] S. P. Jiang and A. C. C. Tseung, Reactive Deposition of Cobalt Electrodes IV. Alkaline Water Electrolysis, J. Electrochem. Soc. 138, 1216-1222(1991)

    [40] 蔡志申,物理雙月刊,二十二卷五期,605(2003)

    [41] J.D.Jackson,Classical Electrodynamics , 3rd edit,‎John Wiley & Sons INC,New York ,USA (1998)

    [42]Z. Q. Qiu and S. D. Bader, J. Magn. Magn. Mater.200, 664 (1999)

    [43] E. Ruska, G. Binnig and H. Rohrer, the Nobel Prize in Physics 1986, Nobel Foundation (1986)

    [44] F. J. Giessibl, Advances in atomic force microscopy, Rev. Mod. Phys. 75, 949 (2003)

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