[1]S.Shionoya and W. M. Yen, 1999, “Phosphor Handbook”, CRC press, Boca Raton.
[2]W.T.Hsu,W.H.Wu, C.H.Lu, 2003, “Synthesis and luminescence properties of nano-sized Y3Al5O12:Eu3+phosphor ”, Mater. Sci. Eng. B, 104, 40-44.
[3]S. D. Han, S. P. Khatkar, V. B. Taxak, G.Sharma, D. Kumar, 2006, “Synthesis, luminescence and effect heat treatment on the properties of Dy3+-doped YVO4phospoh”, Mater. Sci. Eng. B, 129, 126.
[4]劉如熹、王健元、石景仁,2001年8月,“白光發光二極體之螢光粉材料介紹”,光訊第91期,p.30。
[5]C. H. Liang, Y. C. Chang, Y. S. Chang, “Enhancement of Luminescence Properties by Sr2+ Substituting Ba2+ in Red-Emitting Phosphors:Ba1-ySryLa2-xZnO5:xEu (x=0-1, y=0-0.7)” J. Electr. Soc. , 156 (10) J303-J307 (2009)
[6]日亞化白光LED美國專利號US 5,998,925
[7]日亞化白光LED美國專利號US 7,531,960
[8]林暉然,民國95年,“鍺酸鹽YxInGe2O7:R1-x(R=Eu, Tb, Tm)之螢光特性研究”,國立成功大學材料科學及工程學系碩士論文,pp11~42。[9]A.R. Tao, S. Habas, P. Yang, Shape control of colloidal metal nanocrystals, Small
4 (2008) 310–325.
[10]T. Tojo, Q. Zhang, F. Saito, “Mechanochemical synthesis of Indium complex oxides (InAO4; A = P, V, Nb, Ta, Sb) and their solid solutions” J. Mater. Sci. (2008) 43:2962-2966
[11]H. Y. Lin, Y. F. Chen, Y. W. Chen, “Water splitting reaction on NiO/InVO4 under visible light irradiation” J. Hydr. Ener. 32 (2007) 86-92
[12]J. Ye, Z. Zou, M. Oshikiri, A. Matsushita, M. Shimoda, M. Imai, T. Shishido, “A novel hydrogen-evolving photocatalyst InVO4 active under visible light irradiation” Chem. Phy. Let. 356 (2002) 221-226
[13]L. Ge, M. Xu, H. Fang, “Synthesis of novel photocatalytic InVO4 - TiO2 thin films with visible light photoactivity” Mater. Let. 61 (2007) 63-66
[14]J. M. Yao, C. K. Lee, S. J. Yang, C. S. Hwang, “Characterization of nano - InVO4 powders synthesized by the hydrothermal process on various In/V molar ratio and soaking conditions” J. All. Camp.
[15]L. Ge, M. Xu, H. Fang, “Synthesis and characterization of the Pd/InVO4– TiO2 co-doped thin films with visible light photocatalytic activities” App. Sur. Sci. 253 (2006) 2257-2263
[16]L. Chen, Y. Liu, Z. Lu, D. Zeng, “Shape-controlled synthesis and characterization of InVO4particales” J. Col. Inter. Sci. 295 (2006) 440-444
[17]Rice C. E., Robinson W. R., ActaCryst., B 32 (1976) 2232
[18]施昭榮,民國99年,“釩酸鹽 InVO4:Eu3+螢光粉之製備與光致發光特性研究”,國立虎尾科技大學光電與材料科技研究所碩士論文。[19]G. S. R. Raju, J. Y. Park, H. C. Jung, R. Balarkrishnaiah, B. K. Moon, and J. H. Jeong, 2011, “Synthesis, structural and luminescent properties of Pr3+ activated GdAlO3 phosphors by solvothermal reaction method”,Curr. Appl. Phys., 11, S292-S295
[20]B.Mercier, C. Dujardin, G. Ledoux, D. Nicolas, B. Masenelli, P. Melinon, “Effect of the quantum confinement on the luminescent properties of sesquioxydes"J.Lumin. 122-123 (2007)756-758
[21]Shinji Okamoto and Hajime Yamamoto, 2002, “Emission from BaTiO3:Pr3+ controlled by ionic radius of added trivalent ion”,J. Appl. Phys, 91, 5492.
[22]彭康瑋,民國107年,“製程條件對於正方晶系LaVO4離子螢光粉之特性研究”,國立虎尾科技大學電子工程系研究所碩士論文。[23]徐敘瑢編著,“光電材料與顯示技術”,五南圖書,2004年8月,pp33~284。
[24]N. I. Meyer and F. P. Jeasen, 1996, “Hot electron from silicon p-n junctions produced by ion implantation”, J. Appl. Phys, 37 (11), 4297.
[25]楊俊英著,民國81年,“電子產業用螢光材料之應用調查”,工研院。
[26]G. Blasse and B.C. Grabmaier,1991 , “Luminescence Materials”, Springer Verlag, Berlin Heidelberg, p.245.
[27]S. Tanimizu, 1999, “Luminescence center of ns2-type ions”, Phosphor Handbook, CRC press, Florida, 141-152.
[28]M. Tamatani, 1999, “Luminescence center of transition metal ions”,Phosphor Handbook, CRC press, Florida, 153-176.
[29]M. Morita, 1999, “Luminescence centers of complex ions, Phosphor Handbook”, CRC press, Florida, 201-212.
[30]T. Kano, 1999, “Luminescence centers of rare-earth ions, Phosphor Handbook”, CRC press, Florida, 177-200.
[31]蔡濱祥,“尖晶石(MgxZn1-x)(In2-yGay)O4: Eu3+, Tb3+螢光粉體製備及其光致發光特性研究”,國立成功大學材料科學及工程學系博士論文,2005。
[32]陳昱霖,“柘榴石(Y3Al5O12)螢光體之合成與性質研究”,國立成功大學材料科學及工程學系碩士論文,2001。[33]李育群,“鍺酸鹽LaAlGe2O7螢光粉光致發光特性研究”,國立成功大學材料科學及工程學系博士論文,2007。
[34]D. R. Vij, 1998, “Luminescence in Solids”, Plenum press, New York.
[35]蔡濱祥,“尖晶石(MgxZn1-x)(In2-yGay)O4: Eu3+, Tb3+螢光粉體製備及其光致發光特性研究”,國立成功大學材料科學及工程學系博士論文,2005。
[36]陳昱霖,“柘榴石(Y3Al5O12)螢光體之合成與性質研究”,國立成功大學材料科學及工程學系碩士論文,2001。
[37]李育群,“鍺酸鹽LaAlGe2O7螢光粉光致發光特性研究”,國立成功大學材料科學及工程學系博士論文,2007。
[38]A. H. Kitai, 1993, “Solid State Luminescence”, Chapman & Hall press, Cambridge.
[39]方客川,2001年,“固態光譜學”,中國科技大學出版社,中國。
[40]H. Yamamoto, “IIa-VIb compounds", Phosphor Handbook, CRC press (1999) 217-230).
[41]劉如熹、王健源,“白光發光二極體用製作技術”,全華科技,(2001)
[42]G. Blasse, W. Schipper and J. J. Hamelink, 1991, “On the quenching of the luminescence of the trivalent cerium ion”, Inorg. Chim. Acta, 189, 77.
[43]G. Blasse, C. de Mello Donega, N. Efryushina, V. Dotsenko and I. Berezovskaya,1994, “Luminescence of Pr3+in indium borate (InBO3)”, Solid State Commun., 92(8), 687.
[44]X.Cheng,D.J.Guo,S.Q.Feng,K.Yang,Y.Q.Wang,Y.F.Ren,Y.Song“Structure and stability of monazite-and zircon-type LaVO4 under hydrostatic pressure”,Optical Materials 49(2015)32-38
[44]L. Ge, M. Xu, H. Fang, “Synthesis and characterization of the Pd/InVO4– TiO2 co-doped thin films with visible light photocatalytic activities” App. Sur. Sci. 253 (2006) 2257-2263
[45]E. Botcharovaa, M. Heilmaiera, J.Freudenbergera, G. Drewa, D. Kudashowb, U. Martinb, “Supersaturated solid solution of nibium in copper by mechanical alloying”, J. Alloy. Compd., 351, 119-125 (2003).
[46]D. Sarkar, M. C. Chu, S. J. Cho, Y. I. Kim, “Synthesis and Morphological Analysis of Titanium Carbide Nanopowder”, J. Am. Ceram. Soc., 92, 2877-2882 (2009).
[47]Joshua D. Sayre, Kris T. Delaney, Nicola A. Spaldin, “Interplay between strain and oxygen vacancies in lanthanum aluminate”, Mater. Sci., 1202.1431 (2012).
[48]Mu Gu*, Lihong Xiao, Xiaolin Liu, Rui Zhang, Bingjie Liu, Xin Xu, “Highly enhanced luminescence of GdTaO4:Eu3+ phosphors by codoping with Zn2+ ions”, J. Alloy. Compd., 426, 390–394 (2006).
[49]M. J. Weber, 1993, “Multiphonon relaxation of rare-earth ions in yttrium orthoaluminate”, Phys. Rev. B, 8 (1973), 54.
[50]張祐嘉,民國102年,“(Y1-x-yPrxLay)InGe2O7 (x=0~0.2, y=0~0.2)系之光致發光特性研究”,國立虎尾科技大學電子工程研究所碩士論文。[51]E. Cavalli, P.Boutinaud, M. Grinberg, 2014, “Luminescence dynamics in CaWO4:Pr3+ powders and single crystals”, Elsevier B.V. All rights reserved.
[52]H. Dornauf, J. Heber, 1980, “Concentration-dependent fluorescence-quenching in La1-xPrxP5O14”, J. Lumines., 22, 1-16.
[53]E. A. Juarez-Arellano, L. Bucio, J. L. Ruvalcaba, R. Moreno-Tovar, J. F. Garcia-Robledo, and E. Orozco, 2002, “The crystal structure of InYGe2O7 germanate”, Z. Kristall., 217, 201.
[54]B. Yan, X. Q. Su “Chemical co-precipitation synthesis and photoluminescence of LnPxV1-xO4:Dy3+(Ln = Gd, La) derived from assembling hybrid precursors”, Journal of Alloys and Compounds 431 (2007) 342-347.
[55]龔晏瑩, 陳登銘,2011,Design, Synthesis and Characterizations of Novel Ultraviolet-Emitting Phosphors under VUV Excitation