[1] Isamu Akasaki, “Renaissance and progress in crystal growth of nitride semiconductors”, Journal of Crystal Growth, 198/199, p.885, 1999
[2] Motoaki Iwaya, et al., “Reduction of Etch Pit Density in Organometallic Vapor Phase epitaxy-Grown GaN on Sapphire by Insertion of a Low-Temperature-Deposited Buffer Layer between High-Temperature-Grown GaN”, Japan Journal of Applied Physics, 37, p.L316, 1998
[3] Robert F. Davis, et al, “Pendeo-epitaxial Growth and Characterization of GaN and related Materials on 6H-SiC(0001) and Si(111) Substrates”
[4] Yoshiaki Honda, et al., “Crystal Orientation Fluctuation of Epitaxial-Lateral-Overgrown GaN with W Mask and SiO2 Mask Observed by Transmission Electron Diffraction and X-Ray Rocking Curves”, Japan Journal of Applied Physics , 38, p.L1299, 1999
[5] Isao Kidoguchi, “Improvement of Crystalline Quality in GaN Films by Air-Bridged Lateral Epitaxial Growth”, Japan Journal of Applied Physics, 39, p.L453, 2000
[6] 黃信雄,「以氫化物氣相磊晶法開發氮化鎵基板研究」,國立交通大學,博士論文,
[9] Xinzhong Wang, “Thick GaN Grown on a Nanoporous GaN Template by Hydride Vapor Phase Epitaxy”, Electrochemical and Solid-State Letters, 11(10), p.H273, 2008
[10] X.Z. Wang, “Effect of nanoporous GaN templates with different pore diameters on the subsequent thick GaN layers by HVPE”, Solid State Communications , 150, p.168, 2009 [11] H. Hartono, “High Quality GaN Grown from a Nanoporous GaN Template”, Journal of
The Electrochemical Society, 154(12), p.H1004, 2007
[12] 鄭治華,「利用陽極氧化鋁及氫化物氣相磊晶技術成長氮化鎵厚膜之研究」,國立
[15] Robert Cadoret, “Growth mechanisms of (0 0 1)GaN substrates in the hydride vapour-phase method: surface diffusion, spiral growth, H2 and GaCl3 mechanisms”, Journal of Crystal Growth, 205, p.123, 1999
[16] E. Aujol, et al., “Thermodynamical and kinetic study of the GaN growth by HVPE under nitrogen”, Journal of Crystal Growth, 222, p.538, 2001
[17] Robert Cadoret, Agnes Trassoudaine, “Growth of gallium nitride by HVPE”, Journal of
Physics: Condensed Matter, 13, p.6893, 2001
[18] Agnes Trassoudaine, et al., “Temperature influence on the growth of gallium nitride by HVPE in a mixed H2/N2 carrier gas”, Journal of Crystal Growth, 260, p.7, 2004
[19] E. Aujol, et al., “Influence of the partial pressure of GaCl3 in the growth process of GaN by HVPE under nitrogen”, Materials Science and Engineering B, 82, p.65, 2001
[20] A. Trassoudaine, et al., “Experimental and Theoretical Study of the Growth of GaN on Sapphire by HVPE”, physica status solidi (a), 176, p.425, 1999
[21] R. Cadoret, et al., “Computed Growth Rates of (001) GaN Substrates in the Hydride Vapour Phase Method”, physica status solidi (a), 183, p.5, 2001
[22] D. Zhuang, J.H. Edgar, “Wet etching of GaN, AlN, and SiC: a review”, Materials Science and Engineering R 48, p.1, 2005
[23] 林沛彥,「氮化鎵V型缺陷成長機制與新氮化鎵磊晶層轉移技術」,國立交通大學,
碩士論文,民國91年
[24] Hong Xiao,羅正忠、張鼎張譯,半導體製程技術導論修訂版,台灣培生教育出版 股份有限公司,98年1月四刷
[25] 施敏,黃調元譯,半導體元件物理與製作技術,二版,國立交通大學出版社,2006 [26] 范文忠等,「低溫陰極螢光分析系統簡介」,電子月刊,172期,越吟出版社,2009
年7月
[27] Bob Hafner, Scanning Electron Microscopy Primer, University of Minnesota’s Characterization Facility, 2007
[28] 謝嘉民等,「光激發螢光量測的原理、架構及應用」,奈米通訊,第十二卷第二期,
[31] J. M. Zhang, et al., “Raman spectra of isotopic GaN”, Physical Review B, 56, p.14399, 1997
[32] 林峰毅,「氮化銦奈米點之微拉曼光譜和應變分析」,國立交通大學,碩士論文,
民國97年
[33] 林麗娟,「X光繞射原理及其應用」,工業材料,86期,100-109頁,工業技術研究院 材料與化工研究所,民國83年2月
[34] 鄧建龍,姚潔宜,張茂男,「X光繞射分析在半導體工業上的應用」,奈米通訊,第 十五卷第四期,國家奈米元件實驗室,民國97年12月
[35] 李建誼,「光學鏡片成型後表面殘留應力層之檢測」,國立中興大學,碩士論文,民 國91年
[36] Hai Lu , et al., “Cathodoluminescence mapping and selective etching, of defects in bulk GaN” , Journal of Crystal Growth, 291, p.82, 2006
[37] T. H. Myers, et al., “Use of high temperature hydrogen annealing to remove sub-surface
damage in bulk GaN”, Journal of Crystal Growth, 246, p.244, 2002
[38] Naoki Kobayashi, Yasuyuki Kobayashi, “In-situ optical monitoring of surface morphology and stoichiometry during GaN metal organic vapor phase epitaxy ”, Applied Surface Science, 159-160, p.398, 2000
[39] A. Rebey, T. Boufaden, B. El Jani, “In situ optical monitoring of the decompositionof GaN thin films”, Journal of Crystal Growth, 203, p.12, 1999
[40] Hidenao Tanaka, Atsushi Nakadaira, “Etching of cubic GaN by annealing in hydrogen ambient”, Journal of Crystal Growth, 189-190, p.730, 1998
[41] Miho Mayumi, et al., “In Situ Gravimetric Monitoring of Decomposition Rate from GaN Epitaxial Surface”, Japan Journal of Applied Physics, 39, p.L707, 2000
[42] Yen-Hsien Yeh, et al., “Hydrogen etching on the surface of GaN for producing patterned structures”, Journal of Crystal Growth, 314, p.9, 2011
[43] D. D. Koleske, et al., “GaN decomposition in H2 and N2 at MOVPE temperatures and pressures”, Journal of Crystal Growth, 223, p.466, 2001
[44] 曾建雄,「硫化處理對P 型氮化鎵與透明電極歐姆接觸特性之研究」,國立中央大 學,碩士論文,民國91年
[45] N. V. Edwards, et al., “Real-time assessment of overlayer removal on GaN, AlN, and AlGaN surfaces using spectroscopic ellipsometry”, Applied Physics Letters, 69, p.2065, 1996
[46] Jong Kyu Kim, Jong-Lam Lee, “Low resistance Pd/Au ohmic contacts to p-type GaN using surface treatment”, Applied Physics Letters, 73, p.2953, 1998
[47] Jingxi Sun, et al., “p-GaN surface treatments for metal contacts”, Applied Physics Letters, 76, p.415, 2000
[48] K. Hiramatsu, et al., “Recent Progress in Selective Area Growth and Epitaxial Lateral Overgrowth of III-Nitrides: Effects of Reactor Pressure in MOVPE Growth”, physica status solidi (a), 176, p.535, 1999
[49] Tetsuya Akasaka, et al., “Selective MOVPE of GaN and AlxGa1-xN with smooth vertical vertical facets”, Journal of Crystal Growth, 189/190, p.72, 1998
[50] A. R. Gon˜i, et al., “Effect of pressure on optical phonon modes and transverse effective charges in GaN and AlN”, PHYSICAL REVIEW B, 64, p.035205, 2001
[51] W. E. Spicer, et al., “The advanced unified defect model for Schottky barrier formation”, Journal of Vacuum Science and Technology B, 6, p.1245, 1988
[52] D. G. Zhao, et al., “Stress and its effect on optical properties of GaN epilayers grown on Si(111), 6H-SiC(0001), and c-plane sapphire”, Applied Physics Letters, 83, p.677, 2003 [53] C. Kisielowski , et al., “Strain-related phenomena in GaN thin films”, PHYSICAL
REVIEW B, 54, p.17745, 1996
[54] Yewchung Sermon Wu, et al., “Effects of laser sources on the reverse-bias leakages of laser lift-off GaN-based light-emitting diodes”, Applied Physics Letters, 90, 251110, 2007 [55] Tanya Paskova, Keith R. Evans, “GaN Substrates—Progress, Status, and Prospects”,
IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS, 15, p.1041, 2009
[56] T. Paskova, et al., “Effect of high-temperature annealing on the residual strain and bending of freestanding GaN films grown by hydride vapor phase epitaxy”, Applied Physics Letters, 88, 141909, 2006
[57] M. Leszczynski et al., “Lattice parameters of GaN single crystals, homoepitaxial layers and heteroepitaxial layers on sapphire”, Journal of Alloys and Compounds, 286, p.271, 1999