[1] A. Tsukazaki et al.,“Blue light-emitting diode based on ZnO“, Jpn. J Appl.
Phys., 21, L643, 2005.
[2] K. Haga,’’Zinc oxide semiconductor material’’, US. Patent, 6936188, 2005.
[3] G.L. Mar et al.,“ Factors influencing the chemical vapor deposition of oriented ZnO films Using zinc acetate“, Chem. Mater., 7, 1890, 1995.
[4] B. Wessler et al.,“Epitaxial growth of ZnO thin films on ScAlMgO4(0001) by chemical solution deposition“, J. Crystal Growth, 242, 283, 2002.
[5] D. C. Look et al.,“Residual native shallow donor in ZnO“, Phys. Rev. Lett.
82, 2552, 1999.
[6] R. Triboulet et al.,“Epitaxial growth of ZnO films“, Prog. Crystal Growth Character.Mater., 47, 65, 2003.
[7] S.Z. Ghandi et al.,“Highly oriented zinc oxide films grown by the oxidation of diethylzinc“, Appl. Phys. Lett. ,37, 449, 1980.
[8] C.K. Lau et al.,“Growth of epitaxial ZnO thin films by organmetallic chemical vapor deposition“, J. Electrochem. Soc.,127, 1843, 1980.
[9] Mikko Ritala et al.,“Atomic layer epitaxy- a valuable tool for nanotechnology“, Nanotechnology, 10, 19, 1999.
[10] D. Vlachos et al. , ”The influence of dopant concentration on the oxygen K-edge ELNES and XANES in yttria-stabilized zirconia”, J. Phys. Condens.
Matter, 13, 10799, 2001.
[11] W. W. Wenas et al.,“High Growth Rate Transparent Conducting Zinc-Oxide Thin Film Prepared by Metalorganic Chemical Vapor Deposition Technique
[12] F. Parmigiani et al., ”An XPS study of yttria-stabilised zirconia single crystals”, J. Elec. Spectro. Relat. Phenom., 63, 1, 1993.
[13] Bixia Lin et al.,“Green luminescent center in undoped zinc oxide films deposited on silicon substrates”, Appl. Phys. Lett., 79, 943, 2001.
[14] A. Bogicevic et al., ”Nature and strength of defect interactions in cubic stabilized zirconia”, Physical Rev. B , 67, 024106, 2003.
[15] A. Ohtomo et al. , ”Single crystalline ZnO films grown on lattice-matched ScAlMgO4(0001) Substrates”, Appl. Phys. Lett., 75, 2635, 1999.
[16] T. Suntola et al., ”Atomic layer epitaxy”, Thin Solid Films, 216, 84, 1992.
[17] K. Vanheusden et al., ”Mechanisms behind green photoluminescence in ZnO phosphor powders”, J. Appl. Phys., 79, 7983, 1996.
[18] K. Ogsata et al., ”Effects of thermal annealing of ZnO layers grown by MBE”, J. Crystal Growth, 214/215, 213, 2000.
[19] H. Ohta, H. Hosono, ”Transparent oxide optoelectronics”, Materials Today, June 2004, p. 42.
[20] Kenji Nomura1,et al., “Room-temperature fabrication of transparent flexible thin-film transistors using amorphous oxide semuconductors”
Nature, 432, 488, 2004.
[21] Kenji Nomura et al. , ”Growth mechanism for single-crystalline thin film of InGaO3(ZnO)5 by reactive solid-phase epitaxy” J. Appl. Phys., 95 (10), 5532, 2004.
[22] Pearson’s Handbook of Crystallographic Data, 4795.
[23] E. S. Hellman,et al. ”ScAlMgO4: an Oxide Substrate for GaN Epitaxy”, MRS Internet J. Nitride Semicond. Res., 1, 1,1996.
[24] D. C. Look, Mater. Sci. Eng. B, 80, 383,2001.
[25] 莊達人,’’VLSI 製程技術’’,國家圖書館編, 1998。
[26] 謝嘉民, ”光激發螢光量測的原理、架構及應用”, 奈米通訊, 12, 28, 2005.
[27] G. Du. Et al., ”Influence of annealing on ZnO thin film grown by plasma-assisted MOCVD”, Vacuum, 69, 473, 2003.
[28] Yefan Chen et al., ” Plasma assisted molecular beam epitaxy of ZnO on c -plane sapphire:Growth and characterization”, J. Appl. Phys.,84, 3912, 1998.
[29] S. Higashi, ”ZnO film deposition with the laser heating combinatorial CVD process”, Reports Res. Lab. Asahi Glass Co., Ltd, 53, 2003.
[30] T. Suntola et al., ”Method for performing growth of compound thin films”, US. Patent, 4413022, 1983.
[31] 吳佳玲,”一維化鋅奈米結構成長過程之研究”,國立交通大學材料科 學與工程學系碩士論文,2004 .
[32] M. Vickers et al., ”Tilt and twist in GaN as measured by high resolution x-ray diffraction”, University of Cambridge, Department of Materials Science and Metallurgy, 2002.
[33] N. Kimizuka et al., ”Structural classification of RAO3(MO)n compounds (R
=Sc, In, Y, or Lanthanides; A =Fe(III), Ga, Cr, or Al; M =Divalent cation; n
= 1–11) ”, J. Solid State Chem., 78 ,98, 1989.
[34] K. Tamura et al., ”Epitaxial growth of ZnO films on lattice-matched ScAlMgO4(0001) substrates”, J. Crytal Growth, 214/215, 59, 2000.
[35] S. Bethe et al., ”Luminescence of heteroepitaxial zinc oxide”, Appl. Phys.
Lett., 52,138, 1987.
[36] G. Du et al., ”Influence of annealing on ZnO thin film grown by plasma-assisted MOCVD”, Vaccum, 69, 473, 2002.
[37] T. Ohnishi et al., ”Coaxial impact-collision ion scattering spectroscopy analysis of ZnO thin films and single crystals”, Materials Science and Engineering B, 56, 256, 1998.
[38] http://www.crystec.de/daten/ysz.pdf
[39] Ivan V. Maekov, Crystal growth for beginners:Fundamentals of
Nucleation,Crystal Growth and Epitaxy, 2nd Edition,World Scientific, Singapore, 2003.
[40] http://www.fibics.com/MS_FIBTEMLiftout.html
[41]S.-H. Park et al., ”Surface roughness and strain effects on ZnO nanorod growth’’, Appl. Phys. Lett., 88, 251903, 2006.
[42] R. A. Laudise et al., J. Phys. Chem., 64, 688, 1960.
[43] R. C. Wang et al.,’’ ZnO hexagonal arrays of nanowires grown on nanorods’’, Appl. Phys. Lett., 86, 251104, 2005.
[44] F. Paraguay D. et al., ’’Growth, structure and optical characterization of high quality ZnO thin films obtained by spray pyrolysis’’, Thin Solid Films, 350, 192, 1999.
[45] Y. Kashiwaba et al. ,’’ Characteristics of c-axis oriented large grain ZnO films prepared by lowpressure MO-CVD method’’, Thin Solid Films, 411, 87, 2002.
[46] C.H. Liu et al, “Effect of electric field upon the ZnO growth on sapphire (0001) by atomic layer epitaxy method”, Chem. Phys. Lett., 355, 43–47, 2002.
[47] N. T. BINH et al., “Structural and optical properties of ZnO epitaxial films grown on Al O (1120) substrates by metalorganic chemical vapor
deposition’’, Japn. J. Appl. Phys., 43, 4110, 2004.
[48] J.M. Pierce et al., “Homoepitaxial growth of dense ZnO(0001) and ZnO(11-20) films via MOVPE on selected ZnO substrate“, J. Crysyal Growth, 283, 147, 2005.
[49] 趙彥錚,“化學氣相沉積氧化鋅磊晶薄膜於YSZ基板之研究“, 國立交 通大學材料科學與工程學系碩士論文,2005 .
[50] A. Waag et al., “ZnO metal organic vapor phase epitaxy: Present state and prospective application in optoelectronics and spin electronics “, Adv. in Solid State Phys., 42, 81, 2002.
[51] L. Wang et al., “High-quality ZnO films grown by atmospheric pressure metal– organic chemical vapor deposition“, J. Crystal Growth, 283, 87, 2005.
[52] T.P. Smith et al., “Homoepitaxial growth of (0001)-and (0001)-oriented ZnO thin films via metalorganic vapor-phase epitaxy and their
characterization“, J. Crystal Growth, 265, 390, 2004.
[53]J. Dai et al. , “Atmospheric pressure MOCVD growth of high-quality ZnO films on GaN/Al2O3 templates“ , J. Crystal Growth, 283, 93, 2005.
[54] P. Fons et al., “Growth of high-quality epitaxial ZnO films on α-Al2O3 “, J.Crystal Growth, 201/202, 627, 1999.
[55]I. Ohkubo et al., “In-plane and polar orientations of ZnO thin films grown on atomically flat sapphire“, Surf. Sci., 443, L1043, 1999.
[56]P. Fons et al., “Uniaxial locked epitaxy of ZnO on the a face of sapphire“, Appl. Phys. Lett., 77, 1801, 2000.
[57]B.P. Zhang et al., “Effects of growth temperature on the characteristics of ZnO epitaxial films deposited by metalorganic chemical vapor deposition“,
Thin Solid Films, 449, 12, 2004.
[58] J. Chen et al., “ Influences of reactor pressure of GaN buffer layers on morphological evolution of GaN grown by MOCVD “, J. Crystal Growth, 256, 248, 2003.
[59] H. Ohta et al., “ Heteroepitaxial growth of zinc oxide single crystal thin films on (111) plane YSZ by pulsed laser deposition “, Materials Research Society Symposium Proceedings, 570, 309, 1999.
[60] Y. F. Chen et al., “Plasma-assisted molecular beam epitaxy of ZnO thin films on sapphire substrates with an MgO buffer“, J. Crystal Growth, 227, 917, 2001.
[61]A. Ohtomo, Doctor of Philosophy Thesis, “Quantum structure and
ultraviolet light emitting devices based on ZnO thin films grown by laser molecular-beam epiraxy“, Tokyo Institute of technology, 2000.