A. SCI 期刊論文(SCI Full Papers)(2007/12/18更新)

  1. C. F. Chen, Y. C. Huang: Study on Titanium coating on to fine powder; J. J. Plating and Coating, Vol 3, No5, 15 (1983)
  2. C. F. Chen, C. T. Kuo, C. G. Lee: Structure and Properties of TiN coating on cemented carbide cutting tools by CVD; J. J. Plating and Coating, Vol 4, No2, 11(1984)
  3. C. F. Chen, Y. C. Huang,S. Hosomi: Synthesis of diamond thin film on Si substrate by Microwave Plasma CVD;J. J. Mat. Fin. Soci., Vol. 39, 434~439(1988)
  4. C. F. Chen, Y. C. Huang. S. Hosomi, I. Yoshida: Effect of oxygen addition on microwave plasma CVD of diamond from CH4-H2 mixture; J. Mat. Res. Bull., Vol. 24,87~94(1989)
  5. C. F. Chen, Y. C. Huang. S. Hosomi: Growth of diamond seed crystals by microwave plasma CVD;J. J. Surf. Fin. Soci., Vol. 40, 295~300(1989)
  6. C. F. Chen, Y. C. Huang. S. Hosomi: Effect of different additive gasses on diamond synthesis by microwave plasma CVD ; J. J. Surf. Fin. Soci., Vol. 40, 301~305(1989)
  7. C. F. Chen, Y. C. Huang. S. Hosomi, I. Yoshida: Diamond deposition from the system? CO-H2 and the effect of O2 and CO2 additive; J. J. Surf. Fin. Soci., Vol. 40,916~921 (1989)
  8. C. F. Chen, K. Nishimura, Ensei Ko, S. Hosomi, I. Yoshida: Characterization of vapor-synthesized diamond with cathodoluminescence; J. J. Surf. Fin. Soci., Vol. 41, 555~559 (1990)
  9. C. F. Chen, Ensei Ko, s. Hosomi: Effect of substrate materials on diamond deposition by microwave plasma CVD ; J. J. Surf.Fin. Soci., Vol. 41, 665~669 (1990)
  10. Chia-Fu Chen,Yen. C. Huang,Satoru Hosomi,Isao Yoshuda,Effect of some additives to the system Ch4-H2 on diamond deposition by microwave plasma CVD;(1990)
  11. C. F. Chen, Ensei Ko, S. Hosomi and I. Yoshida: Effect of selected gases on diamond deposits synthesized by microwave plasma CVD; J. J. Surf. Fin. Soci., Vol.41, 829~833 (1990)
  12. C. F. Chen, K. Nishimura, Ensei Ko, E. Ogawa, S. Hosomi, I. Yoshida: Microwave plasma CVD of diamond: its growth and characterization; J. Surf. Coat. Technol., 43/44, 53~62 (1990)
  13. C. F. Chen, T. M. Hong, The role of hydrogen in diamond synthesis from carbon dioxide-hydrocarbon gases by microwave plasma chemical vapor deposition, Surf. Coat. Techno., 54/55, 368. NSC-80-0416-E-009-03
  14. C. F. Chen, T. M. Hong, Effect of hydrogen addition on diamond growth in C2H2-CO2 gas system; Diamond Relat. Mater., 1, 855. (1992) NSC-80-0416-E-009-03
  15. C. F. Chen, C. L. Lin, T. M. Hong, Growth of diamond from CO2 - (C2H2,CH4) gas system-without supplying additional hydrogen gas; Surf. Coat. Technol., 52, 205. (1992) NSC-79-0405-E-009-13
  16. C. F. Chen, T. M. Hong, Effect of hydrogen addition on diamond growth in C2H2-CO2 gas system; Diamond Relat. Mater., 1, 855. (1992) NSC-80-0416-E-009-03
  17. C. F. Chen, T. M. Hong, Characterization and morphological features of diamond films and particles affected by a diamond-like pre-coated layer, Surf. Coat. Technol., 58, 143. (1993) NSC-80-0416-E-009-03
  18. C. F. Chen, S. H. Chen, T. M. Hong, S. H. Wu, Characterization of diamond films deposited using C3H6Ox-H2 gas mixtures; Diamond Relat. Mater., 2, 732. (1993) NSC-80-0416-E-009-03
  19. C. F. Chen, T. M. Hong, S. H. Chen, Role of hydrogen and oxygen in diamond synthesis using carbon-dioxide-methane-gas mixtures; J. Appl. Phys., 74, 4483. (1993) NSC-81-0416-E-009-03
  20. C. F. Chen, T. M. Hong, S. H. Chen, Optical emission spectroscopy studies of the effects of H2 and addition on diamond synthesis in a CO2-CH4 gas system; Scripta Metall., 29, 317. (1993) NSC-81-0416-E-009-03
  21. C. F. Chen, S. H. Chen, T. M. Hong, H. W. Ko, S. E. Sheu, Microwave diamond synthesis with high oxygen hydrocarbon- (carb-on dioxide, oxygen); Thin Solid Films, 236, 120. (1993)
  22. S. H. Chen, S. L. Chen, M. H. Tsai, J. J. Shyu, C. F. Chen. Characteristics and annealing study of boron-doped polycrystalline diamond films; J. Electrochem. Soc., 142. (1995) L 223 NSC-84-2221-E-009-036
  23. C. F. Chen, T. M. Hong, T. C. Wang, Homogeneous and large-area diamond film formed using multi-filament chemical vapor deposition; Scripta Metall., 31, 413 (1994) NSC-82-0416-E-009-250
  24. C. F. Chen, S. H. Chen, T. M. Hong, T. C. Wang, Characterization of boron-doped diamond films using (CH4 - CO2) gas mixtures with B(OCH3)3 as a dopant source by MPCVD; Thin Solid Films, 248, 149. (1994) NSC-82-0416-E-009-250
  25. C. F. Chen, S. H. Chen, T. M. Hong, T. C. Wang, Boron-doped diamond films using trimethylborate as a dopant source in methane-carbon dioxide gas mixtures; Diamond Relta. Mater., 3, 632. (1994) NSC-81-0416-E-009-03
  26. C. F. Chen, S. H. Chen, T. M. Hong, J. S. Leu, Optical characterization of diamond synthesized using CH4 - CO2 gas mixtures without supplying hydrogen gas; Thin Solid Films, 253, 162. (1994) NSC-82-0416-E-009-250
  27. C. F. Chen, S. H. Chen, T. M. Hong, D. P. Wang, Low-temperature diamond growth and plasma species analysis using methane-carbon dioxide gas mixtures; Scripta Metall., 31, 755. (1994) NSC-82-0416-E-009-014
  28. C. F. Chen, S. H. Chen, Effects of annealing on the electrical properties of boron-doped diamond films; Advances in New Diamond Science and Technology, 23, 709. (1994) NSC-83-0416-E-009-014
  29. C. F. Chen, S. H. Chen, A study of the loss of pattern definition in diamond growth; Thin Solid Films, 253, 168. (1994) NSC-83-0416-E-009-014
  30. C. F. Chen, S. H. Chan, H. W. Ko, S. E. Hsu, Low temperature growth of diamond films by microwave chemical vapor deposition using CH4 + CO2 gas mixtures; Diamond Relat. mater., 3, 443. (1994). NSC-82-0416-E-009-250
  31. C. F. Chen, S. H. Chen, Electrical properties of boron-doped diamond films after annealing treatment; Diamond Relat. Mater., 4, 451. (1995) NSC-83-0416-E-009-014
  32. C. F. Chen, S. H. Chen, K. M. Ling, H. W. Ko, Electrical properties of diamond films grown at low temperature; Thin Solid Films grown at low temperature; Thin Solid Films 270, 205, (1995) NSC-84-2221-E-009-036
  33. C. F. Chen, S. H. Chen, T. M. Hong, M. H. Tsai, Improvement of selectivity during diamond growth utilizing a new process; J. Appl. Phys., 77, 940. (1995)NSC-83-0416-E-009-014
  34. C.F. Chen, S.H. Chen, T.M. Hong, S.Y. Leu, 1995, The selective growth of diamond films on SiO2/Si; Diamond Relat. Mater. (accetped and to be published).
  35. H. C. Chenng, T. K. Ku, B. B. Hsieh, S. H. Chen, S. Y. Leu, C. C. Wang, C. F. Chen, I. J. Hsieh, Jammy C. M. Huang; Fabrication and characterization of diamond-clad Silicon field emitter arrays; Jpn. J. Appl. Phys. 34 (1995) 6926 NSC-84-2221-E-009-036
  36. S. H. Chen, S. L. Chen, M. H. Tsai, J. J. Shyu, C. F. Chen. Characteristics and annealing study of boron-doped polycrystalline diamond films; J. Electrochem. Soc., 142. (1995) L 223 NSC-84-2221-E-009-036
  37. T. M. Hong, S. H. Chen, Y. S. Chiou, C. F. Chen, Effect of nitrogen on the diamond growth using unconventional gas mixtures; Thin Solid Films 270, 148, (1995). NSC-84-2221-E-009-036
  38. C. F. Chen, S. H. Chen, S. Y. Leu, W. K. Yeh, Characterization of diamond films? growth on amorphous SiO2; Tin Solid Films, Jpn. J. Appl. Vol.35, 2255, (1996).NSC-84-2221-E-009-036
  39. C. F. Chen, S. H. Chen, T. M. Hong, S. F. Lo, The synthesis and characterization of phosphorus-doped diamond films using trimethy1-phosphite as a doping source; Diamond Relat. Mater., 5 (1996) 766. NSC-84-2221-E-009-036
  40. C.F. Chen, S.Y. Leu, S.H. Chen, W.K. Yeh: Characterization of Diamond films grown on amorphous SiO2; Jan. J. Appl. Phys. Vol.35(1996) 99 2255∼2260.
  41. T. K. Ku, S. H. Chen, C. P. Wang, N. J. She, C. F. Chen, I. J. Hsieh, H. C. Cheng; Enhnaced electron emission from phosphorous-doped diamond-clad silicon field emitter array; IEEE electron device Letter, 17 (1996) 208. NSC-84-2221-E-009-036
  42. T. M. Hong, S. H. Chen, Y. S. Chiou, C. F. Chen Optical emission spectroscopy studies of the effects of nitrogen addition on diamond synthesis in a CH4 - CO2 gas mixtures; Appl. Phys. Lett, 67, 2149. (1996). NSC-84-2221-E-009-036
  43. C.F. Chen, Y.C. Wang: Fabrication and characterization of spherical polycrystalline diamond emitter arrays; Thin solid Films. 308-309 (1997) 85-89. NSC-84-2221-E-009-036.
  44. C.F. Chen: The influence of characteristics of AIP TiN films by rapid thermal annealing., Metal heat treatment. 55 (1997), 41∼45 . NSC-84-2216-E-009-014
  45. F.C. Lu, Y.W. Li, C.F. Chen: Study on the properties of dual cathodes arc deposition (Ti,Al)N films. Metal heat treatment.59 (1998), 19-24.
  46. C.F. Chen, T.H. Kou, Y.W. Li : The characterization of pure metal targets AID deposited TiZrN thin films. Metal Heat Treatment, 63(1999), 11-18.? NSC-88-2216-E-009-020
  47. Y.T. Jan, Hui-Chen Hsieh, C.F. Chen: Fabrication of nano-size conic diamond arrays by bias assisted PCVD; Diamond and Related Material; 8(1999)772-780? NSC-87-2216-E-009-010
  48. Shao-Yu Chiu, Jia-Min Shieh, Shih-Chieh Chang, Kun-Cheng Lin, Bau-Tong Dai, Chia-Fu Chen, and Ming-Shiann Feng,, Characterization of additive systems for damascene Cu electroplating by the superfilling profile monitor J. Vac. Soc. Technol. B, 18 (2000) 2835.
  49. C.F. Chen, H.C. Wang, H.C. Hsieh: Fabrication and Characterization of the conic diamond field emission arrays with gated structure; Jpn. J. Appl. Phys. Vol. 39 (2000) pp.1901.NSC-87-2216-E-009-017
  50. C.F. Chen, H.C Hsieh,: Emission current influence of gated structure and diamond emitter morphologies in triode-type field emission arrays; Diamond and Related Material; Vol. 9 (2000) pp.1257~1262. NSC-88-2216-E-009-020
  51. C.F. Chen, C.H. Shen, C.L. Lin: The characterization of nitrogen content, diamond-like carbon field emission arrays using a magnetic filtered arc method; Thin Solid Films Vol.377-378 (2000) 326-330.? NSC-89-2216-E-009-007
  52. Yan-Way Li, Yu-Jen Tseng, and Chia-Fu Chen, Substrate Bias Effect on Amorphous Hydrogenated Carbon Films Deposited by Filtered Cathodic Arc Deposition, Jan.J.Appl.Phys.Vol.40 (2001)6574.
  53. Yan-Way Li, Chia-Fu Chen, and Yu-Jen Tseng, Electrical properties of diamond-like carbon films deposited using a filtered cathodic arc system, Jan. J. Appl. Phys. Vol. 40 (2001) 777.NSC-88-2216-E-009-020
  54. Shih-Chieh Chang, Jia-Min Shieh, Kun-Cheng Lin, Bau-Tong Dai, Ting-Chun Wang, Chia-Fu Chen, Ying-Hao Lib, and Ming-Shiann Feng; Investigations of effects of bias polarization and chemical parameters on morphology and filling capacity of 130nm damascene electroplated copper, J. Vac. Soc. Technol. B, 19, (2001) 767.
  55. Chia-Lun Tsai, Chia-Fu Chen, Chien-Liang Lin, The Characterization of Phosphorus Doped and Boron-Doped Diamond-like Carbon Emitter Arrays, Journal of Applied Physics Vol.90 No.9 (2001)4847.
  56. C.F. Chen, C.L.Tsai, C.L.Lin: Fabrication and characterization of phosphorus-doped diamond field emitter in triode type field emission arrays. Diamond and Related Material. Vol.10(2001)834-839.?? NSC-89-2216-E-009-022
  57. C.F. Chen, C.L. Tsai and C.L. Lin; Electronic properties of phosphorus-doped triode-type diamond field emission arrays. Mater. Chem. And Phys. 72 (2001), 210-213
  58. Yan-Way Li, Yew-Bin Shue, Chia-Fu Chen, Teng-Chien Yu, and Jack Jyh-Kau Chang; Substrate bias effect on amorphous nitrogenated carbon films deposited by filtered arc deposition, Diamond and Related Materials,11(2002)1227-1233.? NSC-90-2216-E-009-036
  59. Yan-Way Li, Chia-Fu Chen., Effect of ammonia plasma treatment on the electrical properties of plasma enhanced CVD; Jpn. J. Appl. Phys. Vol. 41 (2002) 5734
  60. Mi Chen, Chieng-Ming Chen, Chia-Fu Chen; Growth of carbon nanotubes by microwave plasma chemical vapor deposition using CH4and Co2 gas mixture., Thin solid Film 420-421(2002) 230-234.
  61. Mi Chen, C.M. Chen, and C. F. Chen; Preparation of High Yield Multi-walled Carbon Nanotubes by Microwave Plasma Chemical Vapor Deposition at Low Temperature”, J. Mater. Sci. 37 (2002) 3561.
  62. Kun-Cheng Lin, Jia-Min Shieh, Shih-Chieh Chang, Bau-Tong Dai, Chia-Fu Chen, and Ming-Shiann Feng, “Leveling effect of copper electrolytes with hybrid-mode additives”, J. Vac. Sci. Technol. B 20(6) pp.2233-2237, (2002).
  63. Kun-Cheng Lin, Jia-Min Shieh, Shih-Chieh Chang, Bau-Tong Dai, Chia-Fu Chen, and Ming-Shiann Feng, “Electroplating Copper in Sub-100nm gaps by additives with low consumption and diffusion ability”, J. Vac. Sci. Technol. B 20(3)pp.940-945, May/Jun 2002.
  64. Chia-Fu Chen and Kun-Cheng Lin, “Effects of the Relationship between Resistivity with Additive Chemistries in Electrochemically Deposited Copper Films”, Jpn. J. Appl. Phys. Vol. 41 (2002) 1981-1985
  65. Chia-Fu Chen and Kun-Cheng Lin, “Effect of Pulse Frequency on Leveling and Resistivity of Copper Coatings”, Jpn. J. Appl. Phys. Vol. 41 (2002) 2881-2885. Part 1, No. 5A, 15 May 2002
  66. C.F. Chen, C.L. Lin and C.M. Wang. Hot filament for in situ catalyst supply in the chemical vapor deposition growth of carbon nanotubes. Jpn. J.Appl.Phys. Vol.41 (2002) L67
  67. C. L. Tsai, C.F. Chen, “Bias effect on the growth of carbon nanotips using microwave plasma chemical vapor deposition” Applied Physics Letter.V.81 (2002)721. NSC-90-2216-E-009-036
  68. C. L. Tsai, C. F. Chen, C. L. Lin, Field Emission from Well-aligned Carbon Nanotips Grown in a Gated Device Structure. Applied Physics Letter.Vol.80,11 (2002)1821. NSC-90-2216-E-009-036
  69. C. F Chen, C. L Tsai, C. L Lin, Study of Carbon Nano Emitters Using CO2-CH4 Gas Mixtures in Triode-type Field Emission Arrays. Diamond and Related Material. Accepted for publish in 2002.? NSC-90-2216-E-009-03647.
  70. Mi Chen, C.M. Chen, H.S. Koo, and C.F. Chen; “Catalyzed Growth Model of Carbon Nanotubes by Microwave Plasma Chemical Vapor Deposition Using CH4 and CO2 gas mixtures” Diamond Relat. Mater. 12 (2003) 1829
  71. Mi Chen, C. M. Chen, S. C. Shi, and C.F. Chen,; Low-Temperature Synthesis MWCNTs by MPCVD Using CH4-CO2 Gas Mixture” Jap. J. Appl. Phys. 42 (2003), 614
  72. H.C. Lo, C.H. Hsu, C.T. Wu, C.F. Chen, L.C. Chen, and K.H. Chen; Fabrication and field emission of well-aligned GaP nanotips. Apply. Phys. Lett. 83 (2003) 1420
  73. Chia-Fu Chen, Yan-Way Li and Hsiu–Ling Huang; Effect of post-treatment on electrical properties of amorphous hydrogenated carbon films deposited by grid less ion beam deposition., Jpn. J. Appl. Phys. Vol. 42 (2003) 259-262
  74. C.L. Tsai, J.H. Hsu, C.F. Chen. Self-embedded of nanocrystalline chromium carbides on well-aligned carbon nanotips. Appl. Phys. Lett. 82 (2003) 4337.
  75. C.L. Tsai, C.F. Chen, Characterization of bias-controlled carbon nanotubes. Diamond and Related Material. 12 (2003) 1615
  76. C.F. Chen, C.L. Lin, C.M. Wang; Field emission properties of vertically aligned carbon nanotubes grown on bias-enhanced hydrogen plasma-pretreated Cr film. Thin solid film 444 (2003) 64
  77. C.F. Chen, C.L. Lin and C.M. Wang,; Field emission from aligned carbon nanofibers grown in situ by hot filament chemical vapor deposition. Appl. Phys. Lett.. (2003), 2515
  78. C.F. Chen, C.L Tsai, C.L. Lin; The characterization of boron-doped carbon nanotube arrays. Diamond and Related Materials. 12 (2003) 1500
  79. C. F. Chen, C. L. Tsai.; modification of new carbon based nanomaterials for field emission devices. IEICE Trans. Electron., Vol. E86-C, 5 May (2003)
  80. C. F. chen, C. L. Lin; Field emission properties of aligned carbon nanotubes grown on stainless steel using CH4/CO2 reactant gas., Diamond Relat. Mater. 13 (2003) 1026.
  81. C.H. Hsu, H.C. Lo, C.F. Chen, C.T. Wu, J.S. Hwang, D. Das, J. Tsai, L.C. Chen, K.H. Chen, Generally applicable self-masked dry etching technique for nanotip arrays fabrication. Nano Lett. 4 (2004) 471
  82. C. M. Chen, M. Chen, F. C. Leu, S. Y. Hsu, S. C. Wang, S. C. Shi, C. F. Chen; Purification +f multi-walled carbon nanotubes by microwave digestion method., Diamond Relat. Mater. 13 (2004) 1182
  83. C. L. Lin, C. F. Chen, S. C. Shi; Field emission properties of aligned carbon nanotubes grown on stainless steel using CH4/CO2 reactant gas. Diamond Relat. Mater. 13 (2004) 1026
  84. C. H. Hsu. S. C. Shi, C. F. Chen; Growth of chromium carbise capped-carbon nanotip using bias-assisted microwave plasma chemical vapor deposition. Thin solid films 469-70 (2004) 131
  85. C. F. Chen, Y. W. Lee; The effects of hydrogen plasma treatment on the PECVD a-SiC:H Films, Accepted by Jap. J. Appl. Phys. (2004)
  86. S.C Shi, C.F Chen, G.M Hsu, J.S Hwang, S Chattopadhyay, Z.H Lan, K.H Chen, L.C Chen; Reduced temperature-quenching of photoluminescence from indium nitride nanotips grown by metalorganic chemical vapor deposition. App. Phys. Lett. 87 (2005) 203103.
  87. S. Chattopadhyay, S. C. Shi, Z. H. Lan, C. F. Chen, K. H. Chen, L. C. Chen; Molecular sensing with ultrafine silver crystals on hexagonal aluminum nitride nanorod templates. J. American Chemical Soc., 127 (2005) 2820
  88. S. C. Shi, C. F. Chen, S. Chattopadhyay,, Z. H. Lan, K. H. Chen, and L. C. Chen; Growth of Single-Crystalline Wurtzite Aluminum Nitride Nanotips with? Self-Selective Apex Angle, Adv. Funct. Mater. 15(2005) 781,No. 5, May.
  89. J .W. Chiou, H.M. Tsai, C.W. Pao, C. L. Dong, C. L. Chang, F. Z. Chien, W. F. Pong, M. H. Tsai, S. C. Shi, C. F. Chen, L. C. Chen, K. H. Chen, I. H. Hong, C. H.Chen, H. J. Lin and J. H. Guo, Comparison of the electronic structures of AlN nanotips grown on p- and n-type Si substrates, J. Phys: Condensed Matter, 17 (2005) 7523.
  90. Chien-Chung Chen, Chia-Fu Chen, Cheng-Hang Hsu, I-Hsuan Li; Growth and Characteristics of Carbon Nanotubes on carbon cloth as electrodes. Diamond Relat. Mater. 14 (2005) 770
  91. C.M Chen, M Chen, Y.W Peng, C.H Lin, L.W Chang, C.F Chen; Microwave digestion and acidic treatment procedures for the purification of multi-walled carbon nanotubes, DIAMOND AND RELATED MATERIALS 14 (2005) 798.
  92. C.H Hsu, C.F Chen, C.C Chen, S.Y Chan; Density-controlled carbon nanotubes. DIAMOND AND RELATED MATERIALS 14 (2005) 739.
  93. C.C Chen, C.F Chen, I.H Lee, C.L Lin; Fabrication of high surface area graphitic nanoflakes on carbon nanotubes templates. Dia. Relat. Mat. 14 (2005) 1897.
  94. C.C Chen, C.F Chen, C.H Hsu, I.H Li; Growth and characteristics of carbon nanotubes on carbon cloth as electrodes. DIAMOND AND RELATED MATERIALS 14 (2005) 770-773.
  95. C.H Hsu, Y.F Huang, L.C Chen, S Chattopadhyay, K.H Chen, H.C Lo, C.F Chen; Morphology control of silicon nanotips fabricated by electron cyclotron resonance plasma etching. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B 24 (2006) 308.
  96. C.H. Hsu, C.F. Chen, H.C. Lo, Field emission characteristics of chromium carbide capped carbon nanotips, Thin Solid Films, 515 (2006) 1025.
  97. Chien-Chung Chen, Yi-Hui Chen, Chia-Fu Chen, The parametric study of carbon nanotips grown by MWPECVD with controllable sharpness using various metallic catalysts, Microelectronic Engineering, 83 (2006) 2510.
  98. Chieng-Ming Chen, Mi Chen, Yong-Wang Peng, Hung-Wei Yu, Chia-Fu Chen, High efficiency microwave digestion purification of multi-walled carbon nanotubes synthesized by thermal chemical vapor deposition, Thin Solid Films, 498 (2006) 202.
  99. H.C Cheng, C.F Chen, C.C Lee; Thin-film transistors with active layers of zinc oxide (ZnO) fabricated by low-temperature chemical bath method. THIN SOLID FILMS 498 (2006) 142.
  100. K.C Chen, C.F Chen, J.S Chiang, C.L Hwang, Y.Y Chang, C.C Lee; Low temperature growth of carbon nanotubes on printing electrodes by MPCVD. THIN SOLID FILMS 498 (2006) 198.
  101. S.C Shi, S Chattopadhyay, C.F Chen, K.H Chen, L.C Chen; Structural evolution of AlN nano-structures: Nanotips and nanorods. CHEMICAL PHYSICS LETTERS 418 (2006) 152.
  102. S.Y Chiu, Y.L Wang, C.P Liu, S.C Chang, G.J Hwang, M.S Feng, C.F Chen; High-selectivity damascene chemical mechanical polishing. THIN SOLID FILMS 498 (2006) 60.
  103. Shih-Chen Shi, Chia Fu Chen, Surojit Chattopadhyay, Kuei-Hsien Chen, Bo-Wen Ke and Li-Chyong Chen, Luminescence properties of wurtzite AlN nanotips, Appl. Phys. Lett. 89 (2006) 163127.
  104. T.C Wang, Y.L Cheng, Y.L Wang, T.E Hsieh, G.J Hwang, C.F Chen; Comparison of characteristics and integration of copper diffusion-barrier dielectrics. THIN SOLID FILMS 498 (2006) 36.
  105. T.K Shih, C.F Chen, J.R Ho, F.T Chuang; Fabrication of various curved relief structures through concave surface forming and soft replica molding. MICROELECTRONIC ENGINEERING 83 (2006) 471.
  106. Teng-Kai Shih, Chia-Fu Chen, Jeng-Rong Ho, Chueh-Yang Liu, Fang-Tzu Chuang, Study of leading factors in formation of surface wavy structures on a rubber material, Appl. Surf. Sci., 253 (2006) 2043.
  107. Teng-Kai Shih, Chia-Fu Chen, Jeng-Rong Ho, Fang-Tzu Chuang, Fabrication of PDMS (polydimethylsiloxane) microlens and diffuser using replica molding, Microelectronic Engineering, 83 (2006) 2499.
  108. Y.L Cheng, Y.L Wang, G.J Hwang, M.L O'Neill, E.J Karwacki, P.T Liu, C.F Chen; Effect of deposition temperature and oxygen flow rate on properties of low dielectric constant SiCOH film prepared by plasma enhanced chemical vapor deposition using diethoxymethylsilane. SURFACE & COATINGS TECHNOLOGY 200 (2006) 3134.
  109. Y.L Cheng, Y.L Wang, J.K Lan, G.J Hwang, M.L O'Neil, C.F Chen; Heat, moisture and chemical resistance on low dielectric constant (low-k) film using diethoxymethylsilane (DEMS) prepared by plasma enhanced chemical vapor deposition. SURFACE & COATINGS TECHNOLOGY 200 (2006) 3127.
  110. Jeng-Rong Ho, Teng-Kai Shih, J. W. John Cheng, Cheng-Kuo Sung, Chia-Fu Chen, A novel method for fabrication of self-aligned double microlens arrays, Sensors and Actuators A, 135 (2007) 465.
  111. Te-Ming Chen, Fu-Ming Pan, Jui-Yi Hung, L. Chang, Shich-Chuan Wu, and Chia-Fu Chen, Amorphous Carbon Coated Silicon Nanotips Fabricated by MPCVD Using Anodic Aluminum Oxide as the Template, Journal of The Electrochemical Society, 154 (2007) D215.
  112. Hua-Chi CHENG, Chia-Fu CHEN, and Chien-Yie TSAY, Cation-Mediated Effects on Zinc Oxide Films Formed by Chemical Bath Deposition, Jap. J. Appl. Phys. 46 (2007) 4265.
  113. Chueh-Yang Liu, Chia-Fu Chen, Jih-Peng Leu and Yi-Chun Lin, Iron oxide nanoparticles within the pore system of mesoporous SBA-15 in different acidity: the synthesis and characterization, J Sol-Gel Sci. Techn 43:47 (2007) 51.
  114. Chien-Chung Chen *, Chia-Fu Chen, Chieng-Ming Chen, Fang-Tzu Chuang, Modification of multi-walled carbon nanotubes by microwave digestion method as electrocatalyst supports for direct methanol fuel cell applications, Electrochemistry Communications 9 (2007) 159.
  115. Kuang-Chung CHEN, Chia-Fu CHEN, Wha-Tzong WHANG, Kuo-Feng CHEN, Jun-Dar HWANG, Kwan-Sin HO, Yu-Yang CHANG, and Lih-Hsiung CHAN, Selected Area Electrophoretic Deposition of Carbon Nanotubes in Triode Structure for Field Emission Device, Jap. J. Appl. Phys., 46 (2007) 4408.
  116. Teng-Kai Shih, Jeng-Rong Ho, Chia-Fu Chen, Wha-Tzong Whang, Chien-Chung Chen, Topographic control on silicone surface using chemical oxidization method, Appl. Surf. Sci. 253 (2007) 9381.
  117. Hua-Chi Chenga, Chia-Fu Chen and Chien-Yie Tsay, Transparent ZnO thin film transistor fabricated by sol-gel and chemical bath deposition combination method, Appl. Phys. Lett., 90 (2007) 012113.
  118. Chien-Yie Tsay,Hua-Chi Cheng,Min-Chi Wang,Pee-Yew Lee, Chia-Fu Chen,Chung-Kwei Lin,Performance of sol-gel deposited Zn1-xMgxO  films used as active channel layer for thin-film transistors ,Surface & Coatings Technology 202(2007) 1323-1328
  119. Teng-Kai Shih, Jeng-Rong Ho, Jui-Hao Wang, Chia-Fu Chen, Chueh-Yang Liu,Chien-Chung Chen, Wha-Tzong Whang, Fabrication of soft reflective microoptical elements using a replication process, Microelectronic Engingeering 85(2008)175-180

 

B.研討會論文(Conference full paper)

  1. H. S. Lee, C. F. Chen, Diamond synthesis using CO2- C3H8 gas mixture by MPCVD; Proc. of the 1992 Annual Conf. of the Chinese Soc. for Mat. Sci., pp. 552. (1992) NSC-80-0416-E-009-03
  2. T. M. Hong, C. F. Chen, The influence of adding hydrogen on diamond growth in C3H8 - CO2 gas system; Proc. of the 1992 Annual Conf. of the Chinese Soc. for Mat. Sci., pp.534. (1992) NSC-80-0416-E-009-03
  3. S. H. Wu, C. F. Chen, Diamond films and particles created in C3H6O - H2 and C3H6O2 - H2 gas system by microwave plasma CVD; Proc. of the 1992 Annual Conf. of the Chinese Soc. for Mat. Sci., pp. 554. (1992) NSC-80-0416-E-009-03
  4. S. H. Chen, C. F. Chen, A comparision of diamond growth using (C4H10O) - H2 gas mixtures by MPCVD; Proc. of the 1992 Annual Conf. of the Chinese Soc. for Mat. Sci., pp. 550. (1992) NSC-80-0416-E-009-03
  5. C. F. Chen, T. M. Hong, M. L. Chen, Analysis of plasma species and film deposition using (CO, CO2, H2) gas mixtures; Proc. of the 183rd meeting of the Electrochemical Society, pp.521, Hawaii, May 16-21. (1993) NSC-81-0416-E-009-03
  6. T. M. Hong, S. H. Chen, C. F. Chen, Diamond synthesis using carbon dioxide-methane gas mixtures with hydrogen and oxyge addition: Correlation between film characterization and plasma species; Proc. of the 1993 Annual Conf. of the Chinese Soc. For Mat. Sci., pp.6-13. (1993) NSC-81-0416-E-009-03
  7. S. H. Chen, C. F. Chen, H. W. Ko, S. E. Sheu, T. M. Hong, Comparison of differences in diamond synthesis using (CO2 or O2) - C3H6O3 gas mixtures; Proc. of the 1993 Annual Conf. of the Chinese Soc. For Mat., pp.6-21. (1993) NSC-81-0416-E-009-03
  8. S. H. Chen, C. F. Chen, H. W. Ko,? A study of low-temperature diamond growth using methane-carbon dioxide gas mixtures; Proc. of the 1994 Annual Conf. of the Chinese Soc. for Mat. Sci., pp.116. (1993) NSC-83-0416-E-009-014
  9. J. J. Shyu, S. H. Chen, T. M. Hong, C. F. Chen, Electrical? properties of boron-doped diamond films using try-methylborate as a dopant source: Proc. of the 1994 Annual Conf. of the Chinese Soc. for Mat. Sci., pp. 120. (1994) NSC-83-0416-E-009-014
  10. S. H. Chen, C. F. Chen, J. J. Shyu, H. W. Ko, A study of selective loss during selective diamond growth; Proc. of the 1994 Annual Conf. of the Chinese Soc. for Mat. Sci., pp. 126. (1994) NSC-83-0416-E-009-014
  11. C. F. Chen, S. H. Chen, T. M. Hong, Effects of annealing on the electrical properties of boron-doped diamond films; Proc. of the ICNDST-4. (1994) NSC-83-0416-E-009-014
  12. C. F. Chen, S. H. Chen, Electrical characteristics altering of boron-doped MPCVD diamond films using annealing treatments; Proc. of the 1994 IUMRS-ICA the second IUMRS International Conference in Asia, Hsinchu, Taiwan, December 14-18. (1994) NSC-83-0416-E-009-014
  13. C. F. Chen, S. H. Chen, Optical properties of polycrystalline diamond for IR analysis; Proc. of the 1994 IUMRS-ICEM, The International Conference Electrical Materials, Hsinchu, Taiwan, December, 19-22. (1994) NSC-83-0416-E-009-014
  14. K. M. Lin, S. H. Chen, C. F. Chen, Electrical characteristics of diamond films deposited at low temperature; Proc. of the 1995 Annual Conf. of the Chinese Soc. for Mat. Sci. p.292. (1995) NSC-84-2216-E-009-019
  15. S. F. Lo, S. H. Chen, C. F. Chen, Growth and characterization of phosphorus-doped diamond films; Proc. of the 1995 Annual Conf. of the Chinese Soc. for Mat. Sci. p.294. (1995) NSC-84-2216-E-009-019
  16. Y. S. Chiou, T. M. Hong, S. H. Chen, C. F. Chen, Effect of nitrogen on the diamond films growth using unconventional gas mixtures; Proc. of the 1995 Annual Conf. of the Chinese Soc. for Mat. Sci. p.296. (1995) NSC-84-2216-E-009-019
  17. S. Y. Leu, S. H. Chen, T. M. Hong, C. F. Chen, Selective growth of diamond films on SiO2; Proc. of the 1995 Annual Conf. of the Chinese Soc. for Mat. Sic. P.306. (1995) NSC-84-2216-E-009-019
  18. C. F. Chen, S. H. Chen, T. M. Hong, S. F. Lo, The synthesis and characterization of phosphorus-doped diamond films using trimethy1-phosphite as a doping source; Proc. of the 6th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 1996.
  19. C.F. Chen, S.H. Chen, T.M. Hong, S.Y. Leu, 1995, The selective growth of diamond films on SiO2/Si; Proc. of the 6th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 1996.
  20. C.F. Chen, Y.C. Wang: Fabrication and characterization of spherical polycrystalline diamond emitter arrays; The Internatioanl Conference on Metallurgical Coatings and Thin Films 1997.
  21. Y.T. Jan, Hui-Chen Hsieh, C.F. Chen: Fabrication of nano-size conic diamond arrays by bias assisted PCVD; Proc. of the 10th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 1999.
  22. C.F. Chen, H.C Hsieh,: Emission current influence of gated structure and diamond emitter morphologies in triode-type field emission arrays; Proc. of the 11th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 2000.
  23. C.F. Chen, C.H. Shen, C.L. Lin: The characterization of nitrogen content, diamond-like carbon field emission arrays using a magnetic filtered arc method; The Internatioanl Conference on Metallurgical Coatings and Thin Films 2000
  24. C.F. Chen, C.L.Tsai, C.L.Lin: Fabrication and characterization of phosphorus-doped diamond field emitter in triode type field emission arrays. The Internatioanl Conference on Metallurgical Coatings and Thin Films 2001
  25. Yan-Way Li, Yu-Jen Tseng, and Chia-Fu Chen, Substrate Bias Effect on Amorphous Hydrogenated Carbon Films Deposited by Filtered Cathodic Arc Deposition. Proc. of the Internatioanl Conference on Metallurgical Coatings and Thin Films 2001.
  26. C. F Chen, C. L Tsai, C. L Lin, Study of Carbon Nano Emitters Using CO2-CH4 Gas Mixtures in Triode-type Field Emission Arrays. Proc. of the 12th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 2001.
  27. Yan-Way Li, Yew-Bin Shue, Chia-Fu Chen, Teng-Chien Yu, and Jack Jyh-Kau Chang, Substrate bias effect on amorphous nitrogenated carbon films deposited by filtered arc deposition, Proc. of the 12th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 2001.
  28. C. L. Tsai, C. F. Chen, L.K. Wu. Bias effect on the growth of carbon nanotips using microwave plasma chemical vapor deposition. The International Conference on Metallurgical Coatings and Thin Films 2002
  29. Mi Chen, Chieng-Ming Chen, Chia-Fu Chen; Growth of carbon nanotubes by microwave plasma chemical vapor deposition using CH4and Co2 gas mixture., The International Conference on Metallurgical Coatings and Thin Films 2002
  30. M. Chen, C.M. Chen, and C. F. Chen, “Optical Emission Spectroscopy Diagnostic of Carbon Nanotubes by Microwave Plasma Chemical Vapor Deposition Using CH4 and CO2 gas mixtures” International Chemical Conference, P0A05, 2002, Taipei, Taiwan, R.O.C.
  31. M. Chen, C. M. Chen, S. C. Shi, and C.F. Chen,” Low Temperature Growth of High Yield Multi-walled Carbon Nanotubes by by microwave plasma chemical vapor deposition using CH4 and CO2 gas mixture” International Conference on Metallurgical Coatings and Thin films, P.26 (2002) San Diego, California, USA .
  32. C. F. Chen, C. L. Tsai. Growth and field emission of boron-doped carbon nanotubes arrays, The International Conference on Metallurgical Coatings and Thin Films. 2003
  33. C.L. Tsai, C.F. Chen, Characterization of bias-controlled carbon nanotubes. Proc. of the 14th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 2003.
  34. C.F. Chen, C.L Tsai, C.L. Lin; The characterization of boron-doped carbon nanotube arrays. Proc. of the 14th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide. 2003.
  35. Mi Chen, C.M. Chen, and C.F. Chen; “Catalyzed Growth Model of Carbon Nanotubes by Microwave Plasma Chemical Vapor Deposition Using CH4 and CO2 gas mixtures” Proc. of the 14th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 2003.
  36. C. F. Chen, C.L. Lin, C.M. Wang; Field emission properties of vertically aligned carbon nanotubes grown on bias-enhanced hydrogen plasma-pretreated Cr film. The International Conference on Metallurgical Coatings and Thin Films 2003
  37. C. F. Chen, C. L. Lin; Field emission properties of aligned carbon nanotubes grown on stainless steel using CH4/CO2 reactant gas. Proc. of the 14th European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide 2003.
  38. C. H. Hsu, C.F. Chen, S.C. Shi; Wang; Growth of chromium carbide capped carbon nanotip using microwave plasma chemical vapor deposition. The International Conference on Metallurgical Coatings and Thin Films 2004
  39. C. C. Chen, C. F. Chen, I. S. Lee; Electrodes with carbon based nano materials for proton exchange membrane fuel cell. The International Conference on Metallurgical Coatings and Thin Films 2004.
  40. C. F. Chen, C. L. Tsai; Modification of Si nano emitters by diamond-clad process. The International Conference on Metallurgical Coatings and Thin Films 2004.
  41. C. H. Hsu, H. C. Lo, S Chattopadhyay, K. H. Chen , C. F. Chen, L. C. Chen, Effect of temperature in controlling plasma etching of silicon substrate for the formation of monolithic siliocon nanotips., The International Conference on Metallurgical Coatings and Thin Films 2004.
  42. C.M Chen, M Chen, Y.W Peng, H.W Yu, C.F Chen; High efficiency microwave digestion purification of multi-walled carbon nanotubes synthesized by thermal chemical vapor deposition. The Third Asian Conference on Chemical Vapor Deposition 2004.
  43. K.C Chen, C.F Chen, J.S Chiang, C. Hwang, Y.Y Chang, C.C Lee; Low temperature growth of carbon nanotubes on printing electrodes by MPCVD. The Third Asian Conference on Chemical Vapor Deposition 2004.
  44. H.C Cheng, C.F Chen, C.C Lee; Thin-film transistors with active layers of zinc oxide (ZnO) fabricated by low-temperature chemical bath method.  The Third Asian Conference on Chemical Vapor Deposition 2004.
  45. S.Y Chiu, Y.L Wang, C.P Liu, S.C Chang, G.J Hwang, M.S Feng, C.F Chen; High-selectivity damascene chemical mechanical polishing.  The Third Asian Conference on Chemical Vapor Deposition 2004.
  46. T.C Wang, Y.L Cheng, Y.L Wang, T.E Hsieh, G.J Hwang, C.F Chen; Comparison of characteristics and integration of copper diffusion-barrier dielectrics.  The Third Asian Conference on Chemical Vapor Deposition 2004.
  47. Y.L Cheng, Y.L Wang, G.J Hwang, M.L O'Neill, E.J Karwacki, P.T Liu, C.F Chen; Effect of deposition temperature and oxygen flow rate on properties of low dielectric constant SiCOH film prepared by plasma enhanced chemical vapor deposition using diethoxymethylsilane.  The Third Asian Conference on Chemical Vapor Deposition 2004.
  48. Y.L Cheng, Y.L Wang, J.K Lan, G.J Hwang, M.L O'Neil, C.F Chen; Heat, moisture and chemical resistance on low dielectric constant (low-k) film using diethoxymethylsilane (DEMS) prepared by plasma enhanced chemical vapor deposition.  The Third Asian Conference on Chemical Vapor Deposition 2004.
  49. C.H Hsu, C.F Chen; Field emission from chromium carbide capped carbon nanotips.  The Third Asian Conference on Chemical Vapor Deposition 2004.
  50. C. Chen, C.F Chen; Electrodes with carbon based nano materials for proton exchange membrane fuel cell. The Third Asian Conference on Chemical Vapor Deposition 2004.
  51. S.C Shi, C.F Chen; Structural evolution of AlN nano-structures: Nanotips and nanorods. The Third Asian Conference on Chemical Vapor Deposition 2004.
  52. C.H Hsu, C.F Chen; Filed emission characteristics of chromium carbide capped carbon nanotips. The International Conference on Metallurgical Coatings and Thin Films 2006.
  53. J.H Wang, C.F Chen,; Deposited a-Si Film with Cat-CVD Utilized Aluminum-Induced Crystallization (AIC) to Form Polycrystalline Silicon. The International Conference on Metallurgical Coatings and Thin Films 2006
  54. K.C Chen, C.F Chen, J.H Lee; Low-Temperature CVD Growth of Carbon Nanotube for Field Emission Application. The International Conference on Metallurgical Coatings and Thin Films 2006
  55. T.C HunG, C.F Chen; Characteristics of CNTs Based-Stainless Steel Electrode for Electric Double-Layer Capacitor Application. The International Conference on Metallurgical Coatings and Thin Films 2006
  56. C.M Chen, C.F Chen, Y Yu, H Hsu; Microwave Assisted Acidic Treatment Procedure and Reaction Mechanism for the Purification of Carbon Nanotubes. International Conference on Metallurgical Coatings and Thin Films 2006
  57. C.F Chen, S.C Shi; Luminescence Properties of Wurtzite AlN Nanotips. International Conference on Metallurgical Coatings and Thin Films 2006