(一)期刊论文(指已发表或已被接受者).doc

（一）期刊論文(指已發表或已被接受者) 001. C. C. Yang, R. Takagi and I. Okada, 1980, “Internal cation mobilities in the molten systems (Li, Na)NO3 and (Na, Cs)NO3”, Z. Naturforsch. 35a, 1186. (SCI) 002. C. C. Yang, R. Takagi and I. Okada, 1983, “Internal cation mobilities in the molten system (Na, K)NO3 and (K, Cs)NO3”, Z. Naturforsch. 38a, 135. (SCI) 003. C. C. Yang, R. Takagi, K. Kawamura and I. Okada, 1987, “Internal cation mobilities in the molten binary system (Li2CO3, K2CO3)”, Electrochemica Acta, 32,1607. (SCI) 004. J. Habasaki, C. C. Yang and I. Okada, 1987, ”Internal cation mobilities in the molten binary system KNO3-Ca (NO3)2“, Z. Naturforsch. 42a, 695. (SCI) 005. C. C. Yang, J. Habasaki, O. Odawara and I. Okada, 1987, “Internal cation mobilities in the molten binary systems KNO3-Sr(NO3)2 and KNO3-Ba(NO3)3”, Z. Naturforsch, 42a, 1021. (SCI) 006. C. C. Yang and I. Okada, 1987, “Internal Cation Mobilities in the molten binary system (K-Rb)NO3”, Z. Naturforsch. 42a, 1017. (SCI) 007. C. C. Yang, M. Nomura, M. Okamoto and I. Okada, 1988, “Isotope effect of Li-ions in countercurrent electromigration of molten LiOH”, Z. Naturforsch. 43a, 91. (SCI) 008. C. C. Yang, O. Odawara and I. Okada, 1989, “Internal Cation Mobilities in the Molten Binary System NaOH-KOH”, J. Electrochem. Soc. 136, 120. (SCI) 009. C. C. Yang and S. N. Flengas, 1991, “Electrochemical characteristics of Calciastabilized Zirconia electrolyte in the molten alkali chloride-carbonate systems“, Third international symposium on molten salt chemistry and technology, M. Chemla and D. Deviliers, Materials Science Forum, 73, 625. (EI) 010. C. C. Yang, 1992, “Internal Cation Mobilities in the molten binary systems LiCl-AlC13 and KC1-AlCl3,” J. of Yunlin Institute of Technology, 1, 137. (EI) 011. C. C. Yang and C. Chang, 1993, “Aluminum electrodeposition from room temperature molten AlC13-BPC salt bath”, J. Mar. Sci. & Tech. 1, 31. (SCI) 012. P. Chou, H. Matsuura, I. Okada and C. C. Yang, 1993, “Internal Cation Mobilities in the molten systems (Ag, Rb) NO3 and (Ag, Cs) NO3 Remeasured by the Klemm method”, Z. Naturforsch. 48a. (SCI) 013. C. C. Yang, 1993, “The electrical conductivities and the internal Cation Mobilities of the molten binary system NaCl-AlCl3”, J. of Yunlin Institute of Technology, 2,133. (EI) 014. S. Chen and C. C. Yang, 1993, “Thermally stimulated current study of poly(vinyl chloride) / poly (ethylene-co-methyl methacrylate) blends” , Polymer Journal, 25,1015. (SCI) 015. C. C. Yang and B. Lee, 1993, “Internal cation mobilities in the molten binary systems (Li, Na)Cl and (Na, K)Cl”, Z. Naturforsch. 48a. (SCI) 016. C. C.Yang, 1994, “The mechanism of ionic transport in some molten alkali chloride electrolytes”, J. of Yunlin Institute of Technology, 3, 111. (EI) 第3頁 017. H. Lin, C. Hsu, H. Yang, P. Lee and C. C. Yang, 1994, “NanocrystallineWO3 based H2S sensors”, Senor and Actuators B-Chemical, 22, 63. (SCI) 018. C. C. Yang, 1994, “Transport property of cations Li+ and K+ in the molten salt electrolyte”, J. of the Chinese Institute of Engineers, 6, 835. (EI) 019. C. C. Yang, 1994, “The Chemla effect on the internal cation mobilities in the molten binary system (Li, Na)(SO4)0.5”, Denki Kagaku, 62, 811. (SCI) 020. C. C. Yang, 1995, “Electrodeposition of aluminum in the high temperature aluminum chloride molten salt system”, J. of the Chinese Institute of Engineers, 1, 131. (EI) 021. C. C. Yang, and J. C. Chang, 1997, “Electrodeposition of aluminum from the molten aluminum chloride-sodium chloride electrolytes by direct current and pulse current techniques”, J. of Science and Technology, 4, 445. (EI) 022. C. C. Ynag, “Fabrication of platinum coated titanium electrodes from molten salt eleztrolytes by the electrodeposition process”, J. of Science and Technology, 8, 178. (EI) 023. C. C. Yang, S. H. Wu and K. S. Shen, 2000, “The electrodeposition of tungsten in the low melting molten carbamide electrolyte”, J. of Science and Technology, 9, 31.(EI) 024. C. C. Yang, 2000, “The electrodeposition of molybdenum from low temperature ammonium formate molten salt”, J. of Science and Technology, 9(3), 199. (EI) 025. C. C. Yang, 2000, ”The Electrodeposition of Mo from Molten Salt by Pulse Current Technique”, Progress in Molten Salt Chemistry 1, 569, R. W. Berg, H. A. Hjuler, ELSEVIER. (EI) 026. C. C. Yang, H. A. Hsu, K. Y. Huang, C. D. Lu, 2000, “Electrodeposition of Platinum on Ti from Molten salt by Pulse Current Technique”, Progress in Molten salt Chemistry 1, 575, R. W. Berg, H. A. Hjuler, ELSERVIER. (EI) 027. H. Y. Hsu and C. C. Yang, 2001, “Conductivities of Room Temperature Molten Salts Containing AlCl3 Measured by a Computerized Direct Current Method”, Z. Naturforsch. 56a, 670. (SCI) 028. H. Y. Hsu and C. C. Yang, 2002, “Conductivities of Room Temperature Molten Salts Containing ZnCl2 Measured by a Computerized Direct Current Method”, Z. Naturforsch. 57a, 129. (SCI) 029. C. C. Yang, 2002, “Fabrication of platinum coated titanium electrodes from molten salt electrolytes by the electrodeposition process”, J. of Science and Technology, 11(3),197. (EI) 030. C. C. Yang, K. Y. Chen and W. F. Lien, 2002, “The Electroless Plating of Cu-Ni Alloys on the Woven Fabrics for Shielding Electromagnetic Interference”, J. of Science and Technology, 11, 349. (EI) 031. C. H. Yang and C. C. Yang, 2002, “Bactericidal Effect of TiO2/Ni Composite Prepared by Electrophoretic Deposition”, Journal of Chin-Min College. 1-11, 6. (EI) 032. C. C. Yang, 2002, “Studies on Preparation of TiO2 nanomaterial and its bactericidal activity”, J. of Humanities and Applied Science, OCIT, 1, 111. (EI) 033. H. Y. Hsu and C. C. Yang, 2003, “Conductivity, Electrodeposition and Magnetic Property of Cobalt (Ⅱ) and Dysprosium Chloride in Zinc Chloride-1-Ethyl-3-Methylimidazolium Chloride Room Temperature Molten Salt”, Z. Naturforsch. 58b,139. (SCI) 第4頁 034. H. Y. Hsu and C. C. Yang, 2003, “Electrodeposition and Corrosion Resistance of Zn-Pd Alloy from the ZnCl2-EMIC-PdCl3 Room Temperature Molten Salt”, Z. Naturforsch. 58b, 1055. (SCI) 035. M. F. Shu, H. Y. Hsu and C. C. Yang, 2003, “Physical Properties of New Type Binary Molten Electrolytes ZnCl2-DMSO2”, Z. Naturforsch. 58a, 451. (SCI) 036. J. C. Lin and C. C. Yang, 2003, “Development of an Efficient Micro-Biomass Combined Heat and Power Cogeneration System”, J. of the Biomass Energy Society of China, 24, 201. (SCI) 037. H. Y. Hsu, C. C. Yang, 2003, “Study in Wettability of Polyester Woven Modified by Plasma Treatment”, The Proceedings of the Third Asia-Pacific International Symposium on the Basic and Application of Plasma Technology, 248. (SCI) 038. C. C. Yang, M. F. Shu, C. M. Liu, T. H. Wu, 2003, “Radiofrequency and/ or direct-current magnetron sputtering fabricating magnetic films of Gd-Co-Fe by Plasma Technique”, The Proceedings of the Third Asia-Pacific International Symposium on the Basic and Application of Plasma Technology, 258. (SCI) 039. C. C. Yang, C. M. Liu, Y. C. Chen, H. N. Chung, M. H. Liu, 2003,“The Study of Plasma Surface Treatment Technology and its Application on Woven Fabric”, The Proceedings of the Third Asia-Pacific International Symposium on the Basic and Application of Plasma Technology, 52. (SCI) 040. C. C. Yang, T. H. Wu, and M. F. Shu, 2004,“Magnetic Films of Co/Al Electrodeposited from the Room Temperature Molten Salt AlCl3-BPC-CoCl2”, Z. Naturforsch. 59b, 519. (SCI) 041. W. H. Wu, C. C. Lin and C. C. Yang, 2004, “Fabrication and corrosion behaviour of platinum-coated titanium electrodes from low temperature molten salt electrolytes”, J. Appl. Electrochem. 34, 525. (SCI) 042. H. Y Hsu and C. C. Yang, 2004, "Conductivity and Stability of ZnCl2-EMIC Room Temperature Molten Salt Measured by a Computerized Direct Current Method", Journal of Humanities and Applied Science, 2, 73~80. (EI) 043. C. C. Yang and M. F. Shu, 2005 ” Physical Properties of a New Type of Molten Electrolytes, FeCl3-DMSO2” Z. Naturforsch. 60a, 444. (SCI) 044. C. C. Yang, M. F. Shu, and P. Y. Cheng, 2005 “The Electrical Conductivity of the Molten binary systems CO(NH2)2-MNO3 (M= Li, Na, NH4)”, Z. Naturforsch. 60a, 848. (SCI) 045. C. C. Yang and M. F. Shu, 2005 “Electrodeposition of Magnetic Films of Co-Zn in ZnCl2-DMSO2-CoCl2 Molten Salt Electrolytes”, Z. Naturforsch. 60a, 853. (SCI) 046. C. C. Yang, H. Y. Hsu, and P. Y. Cheng, 2005” Studies on Sputter-deposited Lithium Manganese Oxide as Cathode Electrodes For Thin Film Lithium Batteries”, The Proceedings of the fourth Asia-Pacific International Symposium on the Basic and Application of Plasma Technology, December 12-14, p.299-301. 047. C. C. Yang, F. S. Liu, H. Y. Hsu, M. F. Shu and M. T. Shiu, 2005” Preparation and Structural Characterization of TiO2 and TiO2-xNx Photocatalytic Film by RF Magnetron Sputtering”, The Proceedings of the fourth Asia-Pacific International Symposium on the Basic and Application of Plasma Technology, December 12-14, p.141-144. 第5頁 048. M. F. Shu, A. Canizo-Cabrera, C. C. Hsu, C. C. Chen, J. C. Wu, C. C. Yang, and T. h. Wu, 2006 “The magnetoresistance ratio of an MTJ device and the influence of ramping DC bias voltage rate measured by conducting atomic force microscope”, J. Magn. Magn. Mater., 304, e294. (SCI) 049. M. F. Shu, A. Canizo-Cabrera, C. C. Hsu, C. C. Chen, J. C. Wu, S. C. Li, C. C. Yang and T. h. Wu, 2006, “Tunneling magnetoresistance of magnetic tunneling junction cell measured by conducting atomic force microscopy with ramping dc bias voltage rate”, J. Appl. Phys., 99, 08R705. (SCI) 050. M. F. Shu, T. H. Wu, and C. C. Yang, 2006, “Electrodeposition of Perpendicular Co-Zn-Gd Magnetic Film from Molten Chlorozincate Electrolyte”, IEEE Trans. Magn., 42, 3081. (SCI) 051. M. F. Shu, T. H. Wu, C. C. Yang, 2007, “Electrodeposition of Perpendicular Gdx(FeCo)y Magnetic Thin Film from ZnCl2-DMSO2 Electrolyte”, J. Magn. Magn. Mater., 310, 2486 (SCI). 052. J. Y. Liu, C. C. Yang, and Y. Z.Wang, 2007,”Miscibility and Physical Properties of Conducting Poly(urea-urethane) Thermoplastic Elastomers, J. of Appiled Polymer Science, 103, 3803~3810 (SCI). 053. Y. Z. Wang, W. Y. Chen, C. C. Yang, C. L. Lin, and F. C. Chang, 2007, “Novel epoxy nanocomposite of low Dk introduced fluorine-containing POSS structure,” Journal of Polymer Science: Part B: Polymer Physics, 45, 502~510 (SCI). 054. C. C. Yang and M. F. Shu, 2006,” Electrodeposition of Zinc from Binary ZnCl2-DMSO2 Room-Temperature Molten Electrolyte”, J. Sci. Tech. (to be published) 055. C. C. Yang, M. F. Shu and T. H. Wu, 2006,” Effect of DMSO on electrodeposition of Co-Zn magnetic film in molten ZnCl2-DMSO2 electrolyte”, J. Sci. Tech. (to be published) 056. M. F. Shu, W. D. Chen, A. CANIZO-CABRERA, T. H. Wu, and C. C. Yang, 2007, "Distribution of magnetic force and the influence of near-field optical reflections observed in a sub-micron Ni80Fe20 array fabricated by nanosphere lithography", IEEE Trans. Magn., in press (to be published) 057. M. F. Shu, T. H. Wu, C. C. Yang, 2007, “Perpendicular Magnetic Properties of Rare Earth-Transition Metal Thin Film Using Pulse Electrodeposition Technique”, J. Appl. Phys., accepted (to be published) 058. M. F. Shu, T. H. Wu, C. C. Yang, 2007, “Preparation of Perpendicular GdFeCo Magnetic Thin Film with Pulse Electrodeposition Technique Utilizing Molten Salt as Electrolyte”, Z. Naturforsch. (to be published). 059. M. F. Shu, T. H. Wu, C. C. Yang, 2007, “Perpendicularly Anisotropic Rare Earth-Transition Metal Magnetic Thin Film Prepared by Molten Salt Electrodepsoition with Pulse Potential Technique”, Z. Naturforsch. (to be published). 060. C. C. Yang and P. Y. Cheng, 2007,”The Annealing Effect on the Sputter-deposited Lithium Manganese Oxide Materials for Thin Film Lithium Batteries”, Z. Naturforsch.(revise) 061. C. C. Yang and C. K. Chen, 2007, “The Study on the Preparation of LiFePO4 as Cathode Materials for Secondary Lithium ion Batteries by Sol-gel method, Z. Naturforsch. (to be published) 062. C. C. Yang and C. W. Chou, 2007,”The Transport Properties of Low Temperature Molten Salt Electrolytes EMIC-PtCl2 and Used for Electrodeposited Pt Layer, ”Z. Naturforsch. ( to be published) 063. C. C. Yang, H. Y. Hsu, and C. R. Hsu, 2007, “Transport Properties of LiTFSI-acetamide Room Temperature Molten Salt Electrolytes Applied in Li-ion Battery”, Z. Naturforsch. (to be published) 第6頁 064. C. C. Yang and J. J. Deng, 2007, “Transport Properties of LiTFSI-urea Room Temperature Molten Salt Electrolytes Applied in Li-ion Battery”, Z. Naturforsch. (to be published) （二）研討會論文 001. C. C. Yang; O. Odawara and I. Okada, 1987, “The Chemla effect on the mobilities binary system NaOH-KOH”, Proceedings of the Joint International Symposium on Molten Salts, eds. M. Blander et al. The Eiectrochemical Society, Pennington, pp. 285. 002. C. C. Yang and S. N. Flengas, 1991, “Electrochemical characteristics of calciastabilized Zirconia electrolyte in the molten alkali chloride-carbonate systems”, The 3rd International Symposium on Molten Salt Chemistry and Technology M. Chemla and D. Devithers, Vol. 73-75, Materials Science Forum. 003. C. C. Yang, 1994, “Electrochemical techniques on the corrosion behavior of electrodeposited aluminum from molten melts”, A-21, EUCHEM Conference on Molten Salts. 004. C. C. Yang, 1994, “Electrochemical study on the corrosion behavior of electro- deposited- aluminum coatings from molten salts”, The 9th T. V. E. Conf. of R. O. C. IV 199. 005. C. C. Yang, et al﹐1994, “Catalytic properties of nanocrystalline WO3-x﹐Pt/WO3-x and Pd/ WO3-x particles”, Mat. Res. Soc. Symp. Proc. Vol. 351。 006. C. C. Yang, et al, 1996, “Studies on the surface brightening process of metals by electropolishing technique”, The 11th T. V. E. Conference of R.O.C. IV 111. 007. C. C. Yang et al, 1996, “Aluminum anodic oxidation for aluminum electrolytic capacitor”, The 11th T. V. E. Conference of R.O.C. IV. 93. 008. C. C. Yang. S. H. Wu, K. S. Shen., 1996, “Electrodeposition of tungsten from low temperature molten salt electrolytes with pulse current”, The 5th National Conference on Science and Technology of National Defense. 009. C. C. Yang, 1997, “The Solubility of Tungsten Oxides in Low Temperature Molten Electrolytes”, 5th International Symposium on Molten Salt Chemistry and Technology, Dresden, Germany. 010. C. C. Yang, 1997, “Electrodeposition of Tungsten in CO(NH2)2-NH4CI Molten Salt Electrolytes”, 5th International Symposium on Molten Salt Chemistry and Technology, Dresden, Germany. 011. C. C. Yang, 1998, “Electrodeposition of titanium from low temperature molten electrolytes”, The 7th National Conference on Science and Technology of National Defense. 012. C. C. Yang, 1998, “Electrodeposition of molybdenum from molten electrolytes”, The 7th National Conference on Science and Technology of National Defense. 013. C. C. Yang, 1998, “Fabrication of platinum coated titanium electrodes from molten electrolytes by the electrodeposition process”, The