[1] C. T. Leondes, Medical Imaging Systems Technology: Analysis and Computational Methods, Singapore: World Scientific Publishing Company, (2005).
[2] P. A. Van den Elsen, E.-J.D. Pol, and M. A. Viergever, Medical image matching-a review with classification, Engineering in Medicine and Biology Magazine, 12(1), (1993) 26-39.
[3] M. Chow, L. Chan, Development and evaluation of a compartmental picture archiving and communications system model for integration and visualization of multidisciplinary biomedical data to facilitate student learning in an integrative health clinic, Computers & Education, 54(3), (2010) 733-741.
[4] V.V. Nagarkar, S.V. Tipnis, V. Gaysinskiy, S.R. Miller, I. Shestakova, High-speed digital radiography using structured CsI screens, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 213, (2004) 476-480.
[5] P. Magnan, Detection of visible photons in CCD and CMOS: A comparative view, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 504(1-3), (2003) 199-212.
[6] C.M. Schaefer-Prokop, D.W. De Boo, M. Uffmann, M. Prokop, DR and CR:
Recent advances in technology, European Journal of Radiology, 72(2), (2009) 194-201.
[7] Andreas Koch, Carsten Raven, Per Spanne, and Anatoly Snigirev, X-ray imaging with submicrometer resolution employing transparent luminescent screens, Journal of the Optical Society of America A, 15(7), (1998) 1940-1951.
[8] 陳玉安、王必本、廖其龍 編著,現代功能材料,中國:重慶大學出版社,(2008)。
[9] Svetlana Zazubovich, Physics of halide scintillators, Radiation Measurements, 33(5), (2001) 699-704.
58
[10] U.L. Olsen, X. Badel, J. Linnros, M. Di Michiel, T. Martin, S. Schmidt, H.F.
Poulsen, Development of a high-efficiency high-resolution imaging detector for 30–80 keV X-rays, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 576(1), (2007) 52-55.
[11] A. M. Gurvich, Luminescent screens for mammography, Radiation Measurements, 24(4), (1995) 325-330.
[12] Andreas Koch, Harald Rosenfeldt, Powder-phosphor screens combined with interference filters for X-ray imaging with increased brightness, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 432(2-3), (1999) 358-363.
[13] C. Raven, A. Snigirev, I. Snigireva, P. Spanne, A. Souvorov, and V. Kohn, Phase‐
contrast microtomography with coherent high‐energy synchrotron x rays, Applied Physics Letters, 69(13), (1996) 1826-1828.
[14] A. Lempicki, C. Brecher, P. Szupryczynski, H. Lingertat, V. V. Nagarkar, S. V.
Tipnis, and S. R. Miller, A new lutetia-based ceramic scintillator for X-ray imaging, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 488(3), (2002) 579-590.
[15] E. Zych, C. Brecher, and H. Lingertat, Depletion of high-energy carriers in YAG optical ceramic materials, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 54(11), (1998) 1771-1777.
[16] W. Knüpfer, E. Hell, D. Mattern, Novel X-ray detectors for medical imaging, Nuclear Physics B - Proceedings Supplements, 78(1-3), (1999) 610-615.
[17] V.V. Nagarkar, T.K. Gupta, S.R. Miller, Y. Klugerman, M.R. Squillante, and G.
Entine, Structured CsI(T1) Scintillators for X-ray Imaging Applications, IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 45(3), (1998) 492-496.
[18] Cheng Jianbo, Chen Wenbin, Yang Kaiyu, HighluminanceYAGsinglecrystalphosphorscreen, Displays, 21(5), (2000) 195-198.
[19] Marco Stampanoni, Gunther Borchert, Peter Wyss, Rafael Abela, Bruce Patterson, Steven Hunt, Detlef Vermeulen, ...Peter Rüegsegger, High resolution X-ray detector for synchrotron-based microtomography, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 491(1-2), (2002) 291-301.
59
[20] Yu Zorenko, I. Konstankevych, M. Globus, B. Grinyov, V. Lyubinskiy, New scintillation detectors based on oxide single crystal films for biological microtomography, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 505(1-2), (2003) 93-96.
[21] Yu Zorenko, V. Gorbenko, I. Konstankevych, B. Grinev, M. Globus, Scintillation properties of Lu3Al5O12:Ce single-crystalline films, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 486(1-2), (2002) 309-314.
[22] A. Ananenko, A. Fedorov, A. Lebedinsky, P. Mateychenko, V. Tarasov, Yu. Vidaj, structural dependence of CsI(Tl) film scintillation properties, Semiconductor Physics, Quantum Electronics & Optoelectronics, 7(3), (2004) 297-300.
[23] M.A. Nitti, N. Cioffi, E. Nappi, B.K. Singh, A. Valentini, Influence of bias voltage on the stability of CsI photocathodes exposed to air, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 493(1-2), (2002) 16-24.
[24] T. Jing, C. A. Goodman, J. Drewery, G. Cho, W.S. Hong, H. Lee, ...D. Wildermuth, Amorphous silicon pixel layers with cesium iodide converters for medical radiography, IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 41(4), (1994) 903-909.
[25] G. E. Thompson, R. C. Furneaux, G. C. Wood, Electron microscopy of ion beam thinned porous anodic films formed on aluminium, Corrosion Science, 18(5), (1978) 481-491.
[26] G. E. Thompson, G. C. Wood, Porous anodic film formation on aluminium, Nature, 290, (1981) 230-232.
[27] Chien Chon Chen, Chi Liang Chen, Yi-Sheng Lai, Template Assisted Fabrication of Pt–Sn Core–Shell Nanospheres, Materials Chemistry and Physics, 131(1-2), (2011) 250-253.
[28] Chien Chon Chen, Shih Hsun Chen, Sheang Wen Shyu, Sheng Jen Hsieh, Use of Nanostructures in Fabrication of Large Scale Electrochemical Film, Physics Procedia, 25, ( 2012 ) 44 – 49.
[29] 陳建仲,薛聿芮,溫義楷,陽極氧化鋁與氧化鈦奈米管的製作與表面積的評估,
工業材料雜誌,第 277 期,第 153-162 頁,2010 年。
60
[30] Charles R. Martin, Nanomaterials: A Membrane-Based Synthetic Approach, Science, 266(5193), (1994) 1961-1966.
[31] D. J. Sellmyer, M. Zheng, R. Skomski, Magnetism of Fe, Co and Ni nanowires in self-assembled arrays, Journal of Physics: Condensed Matter, 13(25), (2001) 433-460.
[32] C. A. Ross, M. Hwang, M. Shima, Henry I. Smith, M. Farhoud, T. A. Savas, ...M.
Redjdal, Magnetic properties of arrays of electrodeposited nanowires, Journal of Magnetism and Magnetic Materials, 249(1-2), (2002) 200-207.
[33] Qingtao Wang, Guanzhong Wang, Bo Xu, Jiansheng Jie, Xinhai Han, Gongpu Li, ...J. G. Hou, Non-aqueous cathodic electrodeposition of large-scale uniform ZnO nanowire arrays embedded in anodic alumina membrane, Materials Letters, 59(11), (2005) 1378-1382.
[34] A. Saedi, M. Ghorbani, Electrodeposition of Ni-Fe-Co alloy nanowire in modified AAO template, Materials Chemistry and Physics, 91(2-3), (2005) 417-423.
[35] R. S. Liu, S. C. Chang, S. F. Hu,C. Y. Huang, Highly ordered magnetic multilayer Ni/Cu nanowires, Physica status solidi (c), 3(5), (2006) 1339-1342.
[36] M. S. Sander, L. S. Tan, Nanoparticle arrays on surfaces fabricated using anodic alumina films as template, Advanced Functional Materials, 13(5), (2003) 393-397.
[37] Kyung T. Kim, Sung M. Cho, A simple method for formation of metal nanowires on flexible polymer film, Materials Letters, 60(3), (2006) 352-355.
[38] M. T. Wu, I. C. Leu, J. H. Yen, and M. H. Hon, Preparation of Ni nanodot and nanowire arrays using porous alumina on silicon as a template without a conductive interlayer, Electrochemical and Solid-State Letters, 7(5), (2004) C61-C63.
[39] 劉國晏,高真空壓鑄法製備陣列式錫鉛合金奈米線氣體感測器,臺北科技大學 機電整合研究所學位論文,(2012)。
[40] S. Rutishauser, I. Zanette, T. Donath, A. Sahlholm, J. Linnros, C. David, Structured scintillator for hard x-ray grating interferometry,
Applied Physics Letters, 98(17), (2011) 171107.
[41] Syverud, JANAF Thermochemical Table, 3rd ed., J. Phys. Chem. Ref. Data, USA, (1985).
61
[42] I. Barin, Thermochemical Data of Pure Substances, Germany, (1989).
[43] M. Pourbaix, Texas/National Association of Corrosion Engineers, Houston, USA, (1974).
[44] B. Lemay, and B. Murphy, Chemistry, 11th version., Pearson Education Inc, USA, (2009).
[45] W. D. Callister, Materials Science and Engineering, 3rd version., Mc Graw Hill, USA, (1994).
[46] Wikipedia Solubility table. 8/11/2012,
http://en.wikipedia.org/wiki/Solubility_table#C
[47] Y. K. Rao, Stoichiometry and Thermodynamics of Metallurgical Processes, USA, (1985).
[48] H. Okamoto, Binary Alloy Phase Diagrams, II Ed., Ed. T.B. Massalski (1990).
[49] WebElements: The periodic table on the web. 20/5/2013, http://www.webelements.com/compounds/caesium/caesium_iodide.html
62