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周振嘉

個人網站
機械工程系(所)
 
學經歷:
  學歷:
美國伊利諾大學 材料博士
國立中山大學 材料科學工程碩士

經歷:
1981~1983 中國鋼鐵公司 研究發展處研究助理
1983~1985 中華民國陸軍 排長
1986~1992 美國伊利諾大學 研究助理、博士後研究員
1992 3月 美國伊利諾大學 客座助理教授
1992 8月 台灣工業技術學院 副教授
1999 8月 台灣科技大學 教授

專業技術
  電子顯微鏡、相變化、材料光電磁性質、陶瓷薄膜、鐵電材料、結構陶瓷、固態氧化物燃料電池、薄膜/ 厚膜技術、積層陶瓷電容、低溫共燒多層陶瓷、電致動感測器
   
專利介紹
 
  微弧氧化膜之有機染料迷你乳膠染色方法  
微弧氧化MAO(或稱作電漿電解氧化PEO),是新興的金屬表面處理方法;高電壓加工時輕金屬及電解液界面......
 
  功能薄膜型導氧元件  
本創作係提供一種功能薄膜型導氧元件。此薄膜型導氧元件結構主要由多孔質透氣基板與功能性導氧薄膜所組成,......
 
 
  ELECTROCHEMISTRY APPARATUS  
An electrochemistry apparatus comprises a supporti......
 
  氣體感測器與主動式加熱模組監控系統  
一種氣體感測器,其係包含一基板、一高介電常數/參考氣氛層、一介面層、一離子導電層、一氣體擴散與電極保......
 
     
研究計畫
 

榮譽獎項

  1. 周振嘉 1998陶業研究學會優秀青年會員獎牌
  2. 周振嘉 1995行政院國科會『大學生研究創作獎』優等指導獎
  3. 李振良, 周振嘉 1994年中國工程師學會, 學生暑期工程論文優等指導獎………中國工程師學會
  4. 陳正劭, 周振嘉 1994中國工程師學會工程論文競賽優等, 學生工程論文優等指導獎
  5. 周振嘉 1992年 Polaroid International Instant Photomicrography Competition,First Prize (Materials science Electron micrography category)
  6. 民國八十五年教育部自製教學媒體銅牌獎
  7. 列名美國Marquis Who’s Who所出版的Who’s Who in the world (2001, 18th ed.)
  8. 列名Marquis Who’s Who所出版的Who’s Who in Science and Engineering(2002-2003, 6th ed.)
  9. 列名Marquis Who’s Who所出版的Who’s Who in the world (2002, 19th ed.) (2003,20th ed., 2004, 21th ed.)
  10. 列名American Biographical Institute, Inc. 所出版的Great Minds of the 21st Century. 2002
  11. 列名 International Biographical Center, Cambridge, England 所出版的 2000 Out standing Scientists of the 21st Century,(1st ed.) 2002.
  12. 列名” Five Hundred Leaders of Influence”, The American Biographical Institute, (2003)

 學術期刊論文

A.         已發表或已接受之論文
1.      C. C. Chou, P.-W. Kao and G. H. Cheng, "Accelerated Spheroidization of Hypoeutectoid Steel by The Decomposition of Supercooled Austenite”, J. Mater. Sci., 21 (1986) 3339. (SCI)
2.      P. Shen, C. C. Chou, M. J. Tsai and C. C. Lin, 1987, "Superlattice of Beta Phase in Aluminized Coatings on IN713LC and Mar-M247", Mater. Sci. Engr., 89 (1987) 145 (SCI)
3.      C. C. Chou, H. Chen and C. M. Wayman, "Phase Identification in Aged Au-Fe Alloys", Mater. Charact., 107 ( 1990) pp.93-107. (SCI)
4.      C. C. Chou, H. Chen and C. M. Wayman, "Effect of Surface Layer on the Investigation of as-jet-polished Au-Fe Alloys", Mater. Charact., 107(1990) pp.85-91. (SCI)
5.      C. C. Chou, H. Chen and C. M. Wayman, "Guinier-Preston Zones in Au-Fe Alloys", Mater. Sci. and Engr., A123(1990)pp.21-31. (SCI)
6.      C. C. Chou, H. Chen and C. M. Wayman, “Aging and Microstructure Evolution of Au-Fe Alloys”, Mater. Sci. Engr., A149(1991) pp.73-84. (SCI)
7.      C. C. Chou, H. Chen and C. M. Wayman, “Electron Diffraction Investigation of Diffuse Reflections in Au-Fe Alloys”, Mater. Sci. and Engr., A149 (1991) pp.95-103 (SCI)
8.      C. C. Chou, C. M. Wayman,"Initial Stage Iron Clustering in Au-Fe Spinglass System", J. of Materials Research, Vol.7, No.2 (1992) pp.321-327 (SCI)
9.      C. C. Chou and C. M. Wayman,"Cubic to Tetragonal Martensitic Transformation in Lead Titanate Single Crystals", Mater. Trans. JIM, Vol.33, No.3, (1992)pp.306-317 (SCI)
10. C. C. Chou, L.C. Yang and C.M. Wayman ,"Transmission Electron Microscopy Study of Domain Boundaries in PbTiO3", Mater. Chem. Phys., Vol.36, No.1-2(1993)pp.57-63 (SCI)
11. C. C. Lee, C. C. Chou and D. S. Tsai, 1997, “Variation in the ordering of Ba(Zn1/3Ta2/3)O3 with A-site substitutions,” Ferroelectrics, 206/207 (1997) 293-305. (SCI)
12. C. S. Hou, C. C. Chou and H.-F. Cheng, (1997), "Effect of Processing Parameters on Structure of Pulsed Laser Deposited La0.5Sr0.5CoO3 Thin Films", Appl. Surf. Sci., 113/114 (1997) 207-11 (SCI)
13. C. C. Lee, C. C. Chou and D. S. Tsai, "Effect of La/K A-Site Substitutions on the Ordering of Ba(Zn1/3Ta2/3)O3," J. Amer. Ceram. Soc., 80[11] (1997) 2885-90. (SCI)
14. C. C. Chou, C. S. Hou and H.-F. Cheng, (1998) “Structure Control of Pulsed-Laser-Deposited Pb0.6Sr0.4TiO3/La0.5Sr0.5CoO3 Thin Films on Various Substrates”, Ferroelectrics, 206/207 (1998) 393-405 (SCI)
15. C. C. Chou, C. S Hou, G. C. Chang and H. F. Cheng, “Pulsed Laser Deposition of Ferroelectric Pb0.6Sr0.4TiO3 Thin Films on Perovskite Substrates,” Applied Surface Science, 291 (1998) in press. (SCI)
16. C. C. Chou, H. Y. Chang, I. N. Lin, B. J. Shaw and J. T. Tan, “Microscopic Examination of the Microwave Sintered (Pb0.6Sr0.4)TiO3 PTCR Materials,” Jpn. J. Appl. Phys. 37 (1998) 3023-26 (SCI)
17. C. C. Chou, Y. T. Huang, B. N. Sun, L. C. Yang and C. M. Wayman, ”Ferroelectric Domain Structures in Flux-Grown PbTiO3 Single Crystals”, Trans. Mat. Res. Soc. Jan., Vol. 14B (1994) 1619-22 (SCI)
18. C. C. Chou, C. S. Chen and D.Y. Tseng, 1996, "Domain Arrangements in Flux-Growth PbTiO3 Single Crystals", Mater. Chem. Phys., 45 (1996) 103-107 (SCI)
19. C. C. Chou and C. M. Wayman, 1997, “Determination of displacement vector on 180 degree domain boundary and polarization arrangements in lead titanate crystals", J. of Materials Research, Vol.12(2) (1997) 457-66. (SCI)
20. C. C. Chou and C. S. Chen, “Banded Structure and Domain Arrangements in PbTiO3 Single Crystals,” Jpn. J. Appl. Phys. 37(1998) 3010-12 (SCI)
21. L. C. Tien, C. C. Chou and D. S. Tsai, “Microstructure of Ba(Mg1/3Ta2/3)O3-BaSnO3 Microwave Dielectrics,” Ceramic International (1998) accepted. (SCI)
22. C. S. Hou, H. F. Cheng and C. C. Chou, “Substrate Effect on Pb0.6Sr0.4TiO3 Thin Films Growth by Pulsed-Laser-Deposition”, Ferroelectrics. (1998) accepted. (SCI)
23. C. S. Hou and C. C. Chou,”Fatigure Properties and Microstructural Evolution of (Pb1-XSrX)TiO3 Ceramics,” Ferroelectrics (1998) accepted (SCI)
24. C. C. Chou and P. H. Chen, “Microstructural Characteristics of Microwave Sintered Semi-conductive Pb0.6Sr0.4TiO3 Ceramics,” Ferroelectrics, (1998) accepted. (SCI)
25. C. C. Chou and P. H. Chen, “Microstructural Characteristics of Microwave Sintered Semi-conductive Pb0.6Sr0.4TiO3 Ceramics,” Ferroelectrics, (1998) accepted. (SCI)
26. C. C. Chou and J. L. Li,”Improvement of Leadframe Positioning in Molding Process of Integrated Circuit Packaging Using Superelastic Ni-Ti Alloys,” submitted to J. CSME (1998) (EI)
27. C. C. Chou and P. H. Chen, “Domain Structure and Polarization Arrangements in PbTiO3 Single Crystals,” Ferroelectrics (1998) accepted (SCI)
28. C. C. Chou and C. S. Hou, “Structural Instability During Cubic/Tetragonal Transformation in Lead Titanate Single Crystals,” J. Am. Ceram. Soc. (1998) accepted. (SCI)
29. C. C. Chou and Y. F. Tsun, “Microstructural Evolution under Polarization Switching of Ferroelectric Tin-modified Lead Zirconate Titanate Ceramics,” Jpn. J. Appl. Phys. (1999) accepted. (SCI)
30. C. C. Chou, C. S. Hou and C. L. Li, “Unconventional Polarization Arrangements and Domain Structures in PbTiO3 Single Crystals,” J. of Materials Science, (1999) accepted. (SCI)
31. C. S. Hou, C. C. Chou and H. F. Cheng, “Substrate Effect on Pb0.6Sr0.4TiO3 Thin Films Growth by Pulsed-Laser-Deposition”, Ferroelectrics, Vol.231 (1999) 129-134. (SCI)
32. C. S Hou and C. C. Chou, “Fatigue Properties and Microstructural Evolution of (Pb1-xSrx)TiO3 Ceramics,” Ferroelectrics, Vol.231 (1999) 25-30. (SCI)
33. H. C. Pan, G. C. Chang, C. C. Chou and H. F. Cheng, “Ferroelectric Properties of Pb0.6Sr0.4TiO3 Thin Films on Perovskite Buffer Layers,” Integrated Ferroelectrics, vol. 25 (1999) 179-186. (SCI)
34. C. C. Chou and J. L. Li, “Improvement of Leadframe Positioning in Molding Process of Integrated Circuit Packaging Using Super-elastic Ni-Ti Alloys,” J. CSME, Vol.20(4) (1999) 365-371. (EI)
35. P. H. Chen, C. C. Chou, I. N. Lin and C. T. Hu, “Microstructural Characteristics and Non-equilibrium Core-Shell Phase in (PbxSr1-x)TiO3 Materials and Their Electrical Properties,” Ferroelectrics, Vol. (1999) Accepted.
36. S. D. Yuh and C. C. Chou, “Domain Switching in Monoclinic YNbO4-Modified ZrO2(3Y),” Scripta Mater. Vol.41(10) (1999) 1097-1102.
37. Y. F. Tsun and C. C. Chou, “Microstructural Evolution under Polarization Switching of Ferroelectric Tin-modified Lead Zirconate Titanate Ceramics,” Jpn. J. Appl. Phys. Vol.38 (1999) 3585-8. (SCI)
38. L. C. Tien, C. C. Chou and D. S. Tsai, “Microstructure of Ba(Mg1/3Ta2/3)O3-BaSnO3 Microwave Dielectrics,” Ceramic International, Vol. 26 (2000) 57-62. (SCI)
39. H. F. Cheng, Y. C. Chen, C. C. Chou, K. C. Chang, C. S. Hou, I. N. Lin, “Comparison on the effect of (La0.5Sr0.5)MnO3 and (La0.5Sr0.5)CoO3 buffer layers on fatigue properties of (Pb0.6Sr0.4)TiO3 thin films prepared by pulsed laser deposition,” J. Appl. Phys. 87(12), (2000) 8695-9.
40. C. C. Chou and C. S. Chen,”Banded domain structures and polarization arrangements in PbTiO3 single crystals,” Ceramics International, 26 (2000) 693-97.
41. L. C. Tien, C. C. Chou and D. S. Tsai, “Ordered structure and Dielectric properties of La-substituted Ba(Mg1/3Ta2/3)O3,” J. Am. Ceram. Soc. 83[8] (2000) 2074-78.
42. C. C. Chou, P. H. Chen and I. N. Lin, “ Powder preparation and sintering process on core-shell structures of (Pb0.6Sr0.4)TiO3 materials,” Ferroelectrics (2001) 863-868.
43. C. S. Hou and C. C. Chou, ”Domain Boundary pinning and nucleation of ferroelectric (Pb1-xSrxTiO3 ceramics,” Ferroelectrics (2001) 849-856.
44. C. R. Lin, C. C. Chou and D. S. Tsai, “ Fatigue properties and microstructures of (Pb,Ca)TiO3 ceramics,” Ferroelectrics, (2001) Vol.260,pp199-204.
45. P. H. Chen, H. C. Pan, C. C. Chou and I. N. Lin, “Microstructures and properties of semiconductive (Pb0.6Sr0.4)TiO3 ceramics using PbTiO3-coated SrTiO3 Powders,” J. Euro. Ceram. Soc., 21 (2001) 1905-8.
46. C. C. Chou, H. C. Pan C. R. Lin and D. S. Tsai, “Ferroelectric properties of (Pb,Ca)TiO3 ceramics under cyclic polarization switching” Ferroelectrics (2001) .
47. Y. C. Lee, C. C. Chou and D. S. Tsai, “Formation of Ordered Domain in the Flux-grown Ba(Mg1/3Ta2/3)O3- Single Cryatals, J. Mater. Res., (2001) .
48. S. D. Yuh, Y. C. Lai, C. C. Chou and H. Y. Lee, “YNbO4 addition on the fracture toughness of ZrO2(3Y) ceramics, “ J. of Materials Sci. 36 (2001) 2303-11
49. S. D. Yuh and C. C. Chou,”In-Situ X-ray diffraction investigation on elastic behavior of YNbO4 -modified ZrO2(3Y) using Synchrotron Radiation,” Jpn. J. Appl. Phys. 40 ,5A (2001) L456-59
50. S. D. Yuh and C. C. Chou,”A novel investigation method on YNbO4 -modified ZrO2(3Y) using Synchrotron Radiation,” Materials letter. 52 (2002) 69-74.
51. C. C. Chou, I-Wei Su and D. S. Tsai, “Microstructural Characteristics of (Pb1-x Cax)TiO3 Materials,” Mater. Chem. Phys.Volume: 79, Issue: 2-3, April 10, 2003, pp. 191-194.(2002)
52. C. C. Chou, D. S. Tsai and I. Nan Lin, “Microstructural defects in Ba (Mg1/3 Ta2/3)O3 Microwave Dielectric Materials,” Mater. Chem. Phys.Volume: 79, Issue: 2-3, April 10, 2003, pp. 218-221. (2002)
53. C.S. Chen, C. C. Chou and I. Nan Lin,”Microwave dielectric properties of glass-ceramic composites for low temperature co-fired ceramics,” Mater. Chem. Phys. Volume: 79, Issue: 2-3, April 10, 2003, pp. 129-134. (2002)
54. Yu-Chang Lee, Chen-Chia Chou, Dah-Shyang Tsai, (2001) “Ordered Structure Formation in the Flux-Grown Ba(Mg1/3Ta2/3)O3 Single Crystals”, J. Mater. Res., 16, 1593-1599. (SCI)
55. Han-Chang Pan, Hsien-Lung Tsai and Chen-Chia Chou, “Low-Temperature Preparation of PbZrTiO3/Pt/TiNi/Si Heterostructure by Laser Annealing”, Integrated Ferroelectrics, Volume 46, pp. 163~173 (2002).
56. Han-Chang Pan, Jiun-Nan Sheng, Chen-Chia Chou and Hsiu-Fung Cheng, “Electrical Properties of Ferroelectric PbSrTiO3 Films on Stainless Steel Substrates With LaSrMnO3 Buffer Layers”, Integrated Ferroelectrics, Volume 46, pp. 175~184 (2002).
57. C.-C. Chou, I-W. Su and D.-S. Tsai, “Octahedral Tilting Domain Boundary in Calcium-modified Lead Titanate Ceramic”, Integrated Ferroelectrics, Volume 48, pp. 69~78 (2002).
58. C.-L. Li and C.-C. Chou, “Electric Properties and Microstructures of Microwave Sintered PZN-(PZT) Based Ceramics”, Integrated Ferroelectrics, Vol.45-50,pp.3~12 (2002).
59. C.-F. Chou, H.-C. Pan and C.-C. Chou, “Electrical properties and microstructures of PbZrTiO3 thin films prepared by Laser Annealing Techniques,” Jpn. J. Appl. Phys. Vol. 41 pp. 6679~6681 (2002).
60. H.J. Jou, S. H. Lee, J. H. No, S. Kojima, C. C. Chou, H. K. Kim and M. S. Jang, “Raman Study of the Effects of Hydrogen Gas Annealing on PbTiO3 crystals”, Jpn. J. Appl. Phys, Vol. 42(2003)1292-6.
61. Cheng-Sao Chen, Chi-Hua Hsu and Chen-Chia Chou,” Microstructures and Piezoelectric Properties of Microwave-Sintered Pb(Mn1/3Nb2/3)0.1Zr0.52Ti0.38O3 Ceramics”, Integrated Ferroelectrics (2003) accepted
62. C.-S. Chen, S. K. Lin, C.-C. Chou, “Piezoelectric Properties of Microwave-Sintered (Pb0.76Ca0.24)[(Co0.5W0.5)0.04Ti0.96]O3 Ceramics, Integrated Ferroelectrics (2003) accepted.
63. Chen-Liang Li and Chen-Chia Chou, “Preparation of PZN-based ceramics using sequential mixing columbite method,” Integrated Ferroelectrics (2003) accepted.
64. Jing-Tang Yang, Han-Chang Pan, Hsien-Lung Tsai and Chen-Chia Chou, “Ferroelectric and pyroelectric properties of sol-gel derived pbcatio3 thin films using low-temperature annealing process, Integrated Ferroelectrics (2003) accepted.
65. Han-Chang Pan, Chen-Chia Chou and Hsien-Lung Tsai, “Low-temperature Processing of Sol-Gel derived La0.5Sr0.5MnO3 Buffer Electrode and Integration with PbZr0.52Ti0.48O3 Films Using CO2 Laser Annealing” Appl. Phy. Lett. 83, 3156,(2003).
66. Cheng-Sao Chen, Chen-Chia Chou, Wei-Chun Yang, Chen-Ti Hu, and I-Nan Lin,” Transmission Electron Microscopic Microstructure of Base-Metal-Electroded BaTiO3 Capacitor Materials with Duplex Structures,” Jpn. J. Appl. Phys., (2003) accepted.
67. Cheng-Sao Chen, Chen-Chia Chou, Wei-Chun Yang, Chen-Ti Hu, and I-Nan Lin,” Transmission Electron Microscopic Microstructure of Base-Metal-Electroded BaTiO3 Capacitor Materials with Duplex Structures,” Jpn. J. Appl. Phys., 43 (2004) 226-231
68. Chen-Chia Chou, Cheng-Sao Chen, I-Nan Lin, Wei-Chun Yang,” Development of X7R type base-metal-electroded BaTiO3 capacitor materials by co-doping of MgO/Y2O3 additives, Ferroelectrics (2004) Feb2006, Vol. 332 Issue 1, p35-39, 5p, 2
69. Cheng-Sao Chen, Chen-Chia Chou, Wei-Chun Yang, Chen-Ti Hu, and I-Nan Lin,” TEM microstructures of X7R type base-metal-electroded BaTiO3 capacitor materials co-doped with MgO/Y2O3 additives,” Ferroelectrics., Feb2006, Vol. 332 Issue 1, p41-44, 4p, 1
70. Cheng-Sao Chen, Chen-Chia Chou, Chang-Shun Chen and I-Nan Lin, “Microwave dielectric properties of glass-ceramic composites for low temperature co-firable ceramics,” Materials Chem. and Phys., 24, (2004), 1795-8
71. Dah-Shyang Tsai, Chih-Hsiao Chen and Chen-Chia Chou, “Preparation and Characterization of gold-coated silver triangular plates in nanometer scale,” Mater. Chem. Phys., 90, (2005), 361-366
72. Chen-Liang Li, Chen-Chia Chou and Dah-Shyang Tsai, “Preparation of PZN-BT-PZT ceramics using A-site element sequential mixing columbite method,” J. European Ceram. Soc. 25 (2005) 2197-2200
73. Cheng-Sao Chen, Chen-Chia Chou, and I-Nan Lin, “Microstructures of X7R type base-metal-electroded BaTiO3 capacitor materials prepared by duplex-structured process,” J. European Ceram. Soc. 25, (2005), 2743-7
74. Chen-Liang Li and Chen-Chia Chou, “Reduction of sintering energy and evaporation for PZN-based ceramics using microwave process,” J. de Phys. IV, 128, (2005), 21-26
75. Tsung-Her Yeh, Wei-Chi Hsu and Chen-Chia Chou,”Mechanical and Electrical properties of ZrO2(3Y) doped with (RE)NbO4 Oxides (RE=Yb, Er, Y, Dy, Y0.5Nd0.5, Sm, Nd)” J. de Phys. IV, 128, (2005), 213-219
76. Chou CC, Hou CS, Yeh TH, “Domain pinning behavior of ferroelectric Pb1-xSrxTiO3 ceramics” J. Euro. Ceram. Soc., 25 (12), 2505-2508 (2005)
77. Li CL, Chou CC, Tsai DS, “Fabrication and electric properties of PZN-based ceramics using modified columbite method”, J Euro. Ceram. Soc., 25 (12), (2005), 2197-2200
78. Chen CS, Chou CC, Lin IN, “Microstructures of X7R type base-metal-electroded BaTiO3 capacitor materials prepared by duplex-structured process” J. Euro. Ceram Soc., 25 (12), (2005), 2743-2747
79. Chen-Liang Li and Chen-Chia Chou, “Microstructures and Electrical Properties of Lead Zinc Niobate-Lead Zirconate Titanate Ceramics using Microwave Sintering,” J. European Ceramic Soc. 26, (2006), 1237-1244
80. Chang, Chi-Ben, Keh-Chyang Leou, Chia-Ta Chia, Cheng-Sao Cheng, Chen-Chia Chou, and I. Nan Lin, Effect of milling process on the microwave dielectric properties of Ba 2Ti9O20 materials. Journal of Physics D: Applied Physics, 39(20), (2006), 4457-4465
81. Ho, Chia-Cheng, Bi-Shiou Chiou, Li-Chun Chang, Chen-Chia Chou, Bo-Heng Liou, and Chin-Chieh Yu, Thermal stability and electric properties of Ba0.7Sr0.3TiO3 parallel plate capacitor with nano-Cr interlayer. Surface and Coatings Technology, 201(7 SPEC ISS), (2006), 4163-4167
82. Chou, Chen-Chia, Cheng-Sao Chen, I. Nan Lin, Wei-Chun Yang, and Hsiu-Fung Cheng, Development of X7RType Base-Metal-Electroded BaTiO3 Capacitor Materials by Co-doping of MgO/Y2O3 Additives. Ferroelectrics, 332, (2006), 35-39
83. Chen, Cheng-Sao, Chen-Chia Chou, Wei-Chun Yang, and I. Nan Lin, TEM Microstructures of X7R Type Base-Metal-Electroded BaTiO3 Capacitor Materials Co-Doped with MgO/Y2O3. Ferroelectrics, 332, (2006), 41-44
84. Cheng-Sao Chen and Chen-Chia Chou, “Rietveld Refinement On BaTiO3 Materials Doped With MgO / Y2O3 Additives.” Ferroelectrics, 355(01), (2007), 159-164
85. Sia-Yu Wu, Chia-Hung Li and Chen-Chia Chou, “Ferroeletric and Fatigue Properties of Conventional and Microwave Sintering Lead Zinc Niobate-Related Ceramics,” Ferroelectrics, 356(01), (2007), 3-7
86. Bo-Heng Liou, Chih-Chieh Yu and Chen-Chia Chou, “Low Temperature Preparation of PZT Thin Films On Different Substrates By Co2 Laser Annealing,” Ferroelectrics, (2007) .
87. Chen-Liang Li, Pin-Yi Chen and Chen-Chia Chou, “Dielectric Behavior and Microstructures of Modified Pb (Zn1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics under Different Columbite Methods,” Ferroelectrics, 355(01), (2007), 264-268
88. Chen-Chia Chou, Shen-Da Tsai, Chih-Chieh Yu, Wen-Hsiang Tu, Yu-En Yeh-Liu and Hsien-Lung Tsai, “Low-temperature Processing of Sol-Gel derived PbZrTiO3 Thick Films Using CO2 Laser Annealing,” J. Sol-gel Sci. Techn., 42, (2007), 315-322
89. Cheng-Sao Chen and Chen-Chia Chou, Microstructure and dielectric properties of nanograined X7R type BaTiO3 ceramic capacitors sintered by 2.45 GHz Microwave, Physical Scripta T129, (2007), 170-174
90. Shen-Da Tsai, M B Suresh and Chen-Chia Chou, Improvement in ferroelectric properties of PZT thick films prepared by a modified Sol-Gel technique using low temperature laser annealing, Physical Scripta T129, (2007), 175-179
91. Tsung-Her Yeh and Chen-Chia Chou, Ionic Conductivity Investigation in Samarium and Strontium Co-doped Ceria System, Physical Scripta T129, (2007), 303-307
92. Jyh-Liang Wang, Yi-Sheng Lai, Sz-Chian Liou, Chen-Chia Chou, Chun-Chien Tsai, Chun-Ping Juan, Huai-Yuan Tseng, Chueh-Kuei Jan, and Huang-Chung Cheng, Structural and Electrical Investigations of Pulse-Laser-Deposited (pb,Sr)TiO3 Films at Various Oxygen Partial Pressures, Journal of Electrochemical Society, 154(6), (2007), 141-146
93. J.-L. WANG, Y.-S. LAI, B.-S. CHIOU, C.-C. CHOU, T.-G.-Y. LEE, H.-Y. TSENG, C.-K. JAN, H.-C. CHENG, Temperature-dependent characteristics of Puse-Laser-deposited (Pb,Sr)TiO3 films at low temperatures, Applied Physics A89, (2007)1211-1218.
94. J.-L. WANG, B-S. LAI, B.-S. CHOU, C.-C. CHOU, C.-C. TSAI, T.G.-Y LEE, H.-C. CHENG, Crystallinity and Electrical properties of (Pb,Sr)TiO3 films enhanced by Laser-assisted low-thermal-budget annealing, Applied Physics A89, (2007), 213-219
95. Jyh-Liang Wang, Yi-Sheng Lai, Der-Chi Shye, Chen-Chia Chou, Bi-Shiou Chiou, Chuan-Ping Juan, and Huang-Chung Cheng, Dependence of ferroelectric characteristics on the deposition temperature of (Pb,Sr)TiO3 films, Jpn. J. Appl. Phys., 46(10A), (2007), 6727-32
96. Li Chen-liang, M.B.Surch, CHOU Chen-chia, “Electrical properties and Grain Growth Kinetics of PZN-based Ceramics Using Microwave Sintering”, Journal of Materials Science & Engineering, 25(6), (2007), 1-5
97. Y.Q. Yao, T.-Y. Tseng, C.C. Chou, and H.D. Chen, “Phase transition and piezoelectric properties of (Bi0.5Na0.5)0.94Ba0.06ZryTi1-yO3(y=0-0.04) ceramic,” J. Appl. Phys., 102: 094102, 2007.
98. Tsung-Her Yeh and Chen-Chia Chou, “Doping effect and vacancy formation on ionic conductivity of zirconia ceramics”, J. Phys. Chem. Solids, 69 (2008) 386–392.
99. Tsung-Her Yeh, Chen-Chia Chou “Doping effect and vacancy formation on ionic conductivity of zirconia ceramics”, Journal of Physics and Chemistry of Solids 69 (2008) 386–392.
100.               C.L. Li, C.C. Chou, H.F. Cheng, “High-K dielectric PZN-based materials prepared by microwave sintering for reduction of defects”, Journal of Physics and Chemistry of Solids 69 (2008) 611–615
101.               Wen-Hung Chung, Dah-Shyang Tsai, Yi-Ming Chen, Ying-Sheng Huang, Chen-Chia Chou, Chin-hsin J. Liu “Thermally decomposed (110) surface of RuO2 single crystal, Solid State Communications 146 (2008) 462–467
102.               Cheng-Wei Chen, Dah-Shyang Tsai, Tsu-Yung Jin, Wen-Hung Chung, Chen-Chia Chou, “Electrochemical performance of lanthanum calcium cobalt ferrite cathode interfaced to LAMOX electrolyte”, Solid State Ionics 179 (2008) 330–337
103.               CHEN-CHIA CHOU, CHENG-SAO CHEN and TSUNG-HERYEH,” Domain and Microstructural Characterization of Ferroelectric Materials Using Transmission Electron Microscopy”, Ferroelectrics, 380:141–149, 2009
104.               JYH-CHENG YU, JUN-XIANG WU, TSUNG HER YEH AND CHEN-CHIA CHOU, “COMPATIBILITY OF MATERIAL PROCESSING AND FABRICATION OF SOL-GEL DERIVED PZT BASED DEVICES”, Ferroelectrics, (2008) accepted
105.               PIN-YI CHEN, CHEN-CHIA CHOU, TSEUNG-YUEN TSENG, HAYDN H. D. Chen, ” Comparative Study between Conventional and Microwave Sintered Lead-Free BNKT Ceramics,” Ferroelectrics, (2008) accepted
106.               Der-Chi Shyea, Chen-Chia Chou, Bo-Heng Liou, Kuo-Yung Hung, Pi-Chun Juan, "Effects of Laser Treatment for the Pb(Zr, Ti)O3/(La, Sr)MnO3 Heterostructure Prepared onto the Stainless Steel Substrate", Ferroelectrics, Volume 383, Issue 1 2009 , pages 40 - 49.
107.               Hue-Min Wu, Jaw-Yeu Liang, Kun-Lin Lin , Chen-Chia Chou, ” Synthesis and the band gap structure of AlN nanowires,” Ferroelectrics, Volume 383, Issue 1 2009 , pages 73 - 77.
108.               PIN-YI CHEN, CHEN-CHIA CHOU, TSEUNG-YUEN TSENG , HAYDN H. D. CHEN,” Impedance Spectroscopic Study on Li-Doped BNKT Piezoelectric Ceramics,” , Volume 381, Issue 1 2009 , pages 100 - 104
109.               Tsung Her Yeh,1 Jun-Nan Shen,1 Jyh-Cheng Yu2 and Chen-Chia Chou,” CHEMICAL REACTIONS DURING WET-ETCHING PROCESS OF LSMO / PZT / LSMO -STRUCTURED DEVICE FABRICATION,” Ferroelectrics, Volume 380, Issue 1 2009 , pages 97 - 101
110.               M B Suresh, Tsung-Her Yeh and Chen-Chia Chou, “ENHANCED FERROELECTRIC PROPERTY OF PVDF THIN FILMS AND PZT-PVDF NANO COMPOSITE FILMS USING CO2 LASER ANNEALING”, Ferroelectrics, 1563-5112, Volume 381, Issue 1, 2009, Pages 80 – 86.
111.               Ke-Heng Lai, M B Suresh, Tsung-Her Yeh and Chen-Chia Chou,” FABRICATION OF FERROELECTRIC NANOFILMS USING MICROWIRES”, Ferroelectrics, Volume 383, Issue 1 2009 , pages 89 – 94
112.               Adrianus Leonardy, Wen-Zhong Hung, Dah-Shyang Tsai,, Chen-Chia Chou, and Ying-Sheng Huang, Structural Features of SnO2 Nanowires and Raman Spectroscopy Analysis, CRYSTAL GROWTH AND DESIGN 2009, Vol. 9 3958–3963
113.               Tsung-Her Yeh,a Chen-Chia Choua,and Hsin-Yi Leeb, Compression-induced reversible phase transformation with a cubic-like structure in 3 mol.% yttria-stabilized zirconia, Scripta Materialia 61 (2009) 927–930
114.               Tsung-Her Yeh, Chen-Chia Chou, Development of ceria-doped zirconia electrolytes with high toughness andionic conductivity, Solid State Ionics 180 (2009) 1529–1533
B.         審查中之論文
1.          Chen-Liang Li and Chen-Chia Chou, “Elemental Segregation on Electrical Properties of Microwave and Conventionally Sintered Lead Zinc Niobate-Lead Zirconate Titanate Ceramics,” submitted to J. Mater. Res. (2003)
2.          Chen-Chia Chou, Cheng-Sao Chen, I-Nan Lin, Wei-Chun Yang,” Development of X7R type base-metal-electroded BaTiO3 capacitor materials by co-doping of MgO/Y2O3 additives, submitted to Ferroelectrics (2003)
3.          Cheng-Sao Chen, Chen-Chia Chou, Wei-Chun Yang, Chen-Ti Hu, and I-Nan Lin,” TEM microstructures of X7R type base-metal-electroded BaTiO3 capacitor materials co-doped with MgO/Y2O3 additives,” submitted to Ferroelectrics., (2003)
4.          Y. C. Wang, C. C. Chou and D. S. Tsai, “Ordering and octahedron tilting in (Pb,Ca)TiO3 ceramics,” to be submitted to J. Mater. Res, (2004).
5.          C. C. Chou, D. S. Tsai and I. N. Lin, “Stacking fault characteristics in ordered Ba( Mg1/3Ta2/3)O3 Ceramics” to be submitted to J. Mater. Res, (2004).
6.          C. C. Chou, I-Wei Su, Y. C. Wang and D. S. Tsai, “Ferroelectric properties and microstructures of (Pb0.5Ca0.5)TiO3 ceramics,” to be submitted to J. Am.Ceram.Soc., (2004).
7.          S. D. Yuh, C. C. Chou and H. Y. Lee, “Phase transformation of ZrO2(3Y) under compression,” to be submitted to J. Mater. Res, (2004).
8.          C. C. Chou, S. D. Yuh and H. Y. Lee, “In-Situ X-ray diffraction investigation on Rubber-like behavior and Phase transformation of ZrO2(3Y) under compression,” to be submitted to J. Am Ceram Soc., (2004).
9.          C. C. Chou, S. D. Yuh and H. Y. Lee, “Stress-Strain characteristics of YNbO4 -modified ZrO2(3Y) under compression,” to be submitted to J. Mater. Res, (2004).
C.         中文期刊論文
  1. 邱仕偉 周振嘉—錫酸鉛陶瓷的形狀記憶效應和偽彈性現象與其發生的相變化行為(Shape memory effect and pseudo – elastic phenomenon associated with trnasition behavior in lead zirconate titanate stannate system) ,陶業季刊,Vol.14, (1995) pp.74~81.
  2. 寸永福 周振嘉—鈦鋯錫鈮酸鉛鐵電陶瓷之電性疲勞行為及微觀組織演變(Electric fatigue behavior amd mircostructure development of PNZST ferroelectric ceramics),Journal of the Ceramic Society,Vol.2 (1998) pp.20~30.
  3. 陳正劭 周振嘉—鈦酸鉛單晶鐵電電域結構之研究(Ferroelectric domain structure of lead titanate single crystals) ,Journal of the Ceramic Society,Vol.1, (1997) pp.25~31.
  4. 賴元章 周振嘉—鐵彈性鈮酸釔對氧化鋯增韌作用之研究(Toughness enhancement of (3Y)ZrO2 with ferroelastic YNbO4) ,陶業季刊,Vol.14, pp.26~32.
  5. 孫精中 周振嘉—氧化鋯對LAS系玻璃陶瓷的燒結影響研究(Influence of ZrO2 on the sintering behavior of LAS glass ceramic) ,陶業季刊,Vol.14(1995) pp.49~60.
  6. 蔡錫明 周振嘉--Al2O3-LaAlO3 系統之機械性質及微觀結構研究,陶業季刊,Vol.13(3)(1994)pp.33~40.
  7. 鄧游朝 周振嘉—利用自發性薄板生長改善氧化鋁陶瓷玻璃韌性(Fracture toughness improvement of alumina aeramics using in-situ platelet growth) ,陶業季刊,Vol.14(1995)pp.33~40.
  8. 楊德偉 李振良 周振嘉—熱處理對鈦鋯錫酸鉛陶瓷的形狀記憶效應和偽彈性相變化行為的影響(Heat treatments on the shape-memory effect and pseudoelastic behavior in lead zirconate titannate stannnate), Journal of the Ceramic Society,Vol.1 (1997) pp.18~24.
9.      許清建 曾東陽 周振嘉  WC-10wt%Ni 超硬合金添加Al之熱處理與微觀結構分析 (Heat treatment and microstructural analysis of WC-10wt% Ni hardmetals with Al alloying) 金屬熱處理,Vol . 63 (1999) 38-54. 
研討會論文 
1.          C. C. Chou and P-W Kao, “Spheroidization by two-step-quench”, Proc. of the 4th ROC symposium on Electron Microscopy, Taipei, Taiwan, R. O. C., June (1983), P.76.
2.          C. C. Chou, H. H. Chen and C. M. Wayman, Fall 1990, “Clustering and Short range ordering in Au-Fe alloys”, MRS Symp., 205, P.131-136.
3.          P. Shen, C. C. Chou, M. J. Tsai and C. C. Lin, 1986, “STEM Study of Beta-NiAl in aluminized Coatings on Superalloy IN713LC”, PROC. of 11th International Congress on Electron Microscopy, Kyoto, Japan, March, 1986
4.          C. C. Chou, F. R. Chen and C. M. Wayman, Fall 1990, “Clustering and Short range ordering in Au-Fe alloys”, MRS Symp., 205, P.131-136.
5.          C. C. Chou, J. Li and C. M. Wayman, Fall 1991, “Study of domain boundary structures in lead titanate crystals”, Proc. MRS Symp.
6.          J. Li, C. C. Chou and C. M. Wayman, Fall 1991, “Martensitic transformation and shape memory effect in an ausaged Fe-33Ni-12Co-5Ti alloy”, Proc. MRS Symp.
7.          C. C. Chou, K. Wakasa and C. M. Wayman, July 1992, “Crystallography of the cubic to tetragonal materstitic transformation in lead titanate single crystals”, Proceedings of International Conference on Martensitic Transformations(ICOMAT)-92, P.695-700.
8.          B. Kim, C. C. Chou and C. M. Wayman, July 1992, ” Alpha to Beta Transformation in Stoichiometric NiS”, Proceedings of International Conferenc e On Matensitic Transformations (ICOMAT)-92, P.701-706
9.          C. C. Chou and C. M. Wayman, 1993, “Using extreme fringe contrast behavior to determine polarization configurations in lead titanate single crystals”, Proc. of the Third IUMRS- ICAM-93
10.      C. C. Chou, S. Tsai, Y. T. Huang, P. N. Sun, L. C. Yang and C. M. Wayman, 1993, “Effect of Crystal-grown Conditions on the Ferroelectric Domain Structures in PbTiO3 Single Crystals”, Proc. of the 1993 Annual Conf. of the Chinese Soc. for Mat. Sci., 2-83
11.      C. C. Chou, Y. Wei, P. N. Sun, Y. T. Huang, L. C. Yang and C. M. Wayman, 1993, “Electron Microscopy Study of Domain Boundaries in PbTiO3 Single Crystal”, Proc. of the 1993 Annual Conf. of the Chinese Soc. For Mat. Sci., 2-85
12.      C. C. Chou, Y. Huang, B. N. Sun, L. C. Yang and C. M. Wayman, 1993, “Ferroelectric Domain Structures in Flux-Grown PbTiO3 Single Crystals”, Proc. of the Third IUMRS-ICAM-93
13.      Chen-Chia Chou, Y. T. Huang, B. N. Sun, L. C. Yang and C. M. Wayman, 1993, “Lattice Purturbation During Cubic/Tetragonal Transformation in PbTiO3”, Proc. of the 1993 Annual Conf. of the Chinese Soc. for Mat. Sci., 2-149.
14.      C. C. Chou, C. S. Chen and D. Y. Tseng, 1994, “Peculiar domain Arrangements in PbTiO3 Single Crystals”, Proc. IUMRS-ICEM-94
15.      C. C. Chou, S.M.Tsai and D. Y. Tseng, 1994, “Study of Microstructure and Mechanical Properties of Al2O3-La2O3 system”, IUMRS-ICA-94
16.      Y. Wei, S. W. Chiu and C. C. Chou, 1994, “Preparation of Lead Zirconate Titanate Stanate by Soultion Coating and Co-precipitation method”, Proc. IUMRS-ICEM-94
17.      C. C. Chou, C. S. Chen, C. S. Hou and C. M. Wayman, “Lattice Purturbation of Cubic/Tetragonal Transformation in PbTiO3”, Proc. Int. Conf. Displacive phase Tranf. and their Appl. in Mater. Engr., Illinois, USA, (1996)
18.      C. C. Chou, J. L. Li, C. S. Tsai, J. T. Yang and H. R. Ong., “Improvement of Leadframe Positioning in Molding Process of Integrated Circuit Packaging Using Superelastic Ni-Ti Alloys”, Proc. Int. Conf. Displacive phase Tranf. And their Appl. in Mater. Engr., Illinois, USA, (1996).
19.      C. C. Lee, C. C. Chou and D. S. Tsai, “La3+ doping on the ordering behavior of Ba(Zn1/3Ta2/3) O3, 1996 International Electron Devices and Materials Symposium, IEDMS-96, Hsin-chu, Taiwan, (1996).
20.      C. S. Chen and C. C. Chou, “ Phase transformation and pertinent microstructures of Lead titanate single crystals,” IEDMS-96, Hsin-chu, Taiwan, (1996).
21.      C. C. Chou, C. S. Hou and H. F. Cheng, “Structure control of Pulsed-Laser-Deposited Pb0.6Sr0.4TiO3/ La0.5Sr0.5CoO3 thin films on various substrates” 1997 Williamsburg Workshop on Ferroelectrics, Virginia, USA(1997).
22.      C. S. Hou, C.C. Chou and H. F. Cheng, “Crystal structure and ferroelectric properties of La0.5Sr0.5CoO3 thin films prepared by pulsed laser deposition, ICSFS-8, Tokyo, Japan (1996)
23.      Y. Motohashi, C. C. Chou, S. Yu and Sakuma, “Microstructure Characteristics of superplastic 3Y-ZrO2 Ceramics in Solid -state bonding of Al2O3,” International seminar on microstructure, micromechanics and Processing of superplastic materials (IMSP’97), Tsu, Japan, (1997)
24.      C.C. Chou, K.C. Chang, H. F. Cheng and I. N. Lin, “Synthesis and electric properties of Modified SrTiO3 thin films on Si substrates using Pulsed laser deposition,” The 9th International Meeting on Ferroelectricity, Korea, (1997).
25.      C.C. Chou, C. S. Hou and H. F. Cheng, “Crystal structure and ferroelectric properties of Pb0.6Sr0.4TiO3 thin films prepared by pulsed laser deposition,” The 9th International Meeting on Ferroelectricity, Korea, (1997).
26.      C.C. Chou, C. S. Hou and H. F. Cheng, “Structure Control of Pulsed-Laser-Deposited Pb0.6Sr0.4TiO3/La0.5Sr0.5CoO3 Thin Films on Various Substrates”, Williamsburg, Virginia, USA, (1997)
27.      C. C. Chou, H. Y. Chang, I. N. Lin, B. J. Shaw and J. T. Tan, “Microscopic Examination of the Microwave Sintered (Pb0.6Sr0.4)TiO3 PTCR Materials,” Ferroelectric materials and Their Applications (FMA)-15, Kyoto, Japan, (1998)
28.      C. C. Chou and C. S. Chen, “Banded Structure and Domain Arrangements in PbTiO3 Single Crystals,” FMA-15, Kyoto, Japan, (1998)
29.      C. Chou and C. S. Chen, “Polarization Arrangements in Banded Structures of PbTiO3 Single Crystals,” CIMTEC-9, Florence, Italy (1998)
30.      C. L. Li and C. C. Chou, “Phase transition and electrically induced Strain in Tin-modified Lead Zirconate Titanate Ceramics,” CIMTEC-9, Florence, Italy (1998)
31.      H.-F. Cheng, C. S Hou, C. C. Chou 1998, “Pulsed Laser Deposition of Ferroelectric Pb1-xSrxTiO3 Thin Films Using Buffer-Layer Electrodes”, Proceedings of the 9th CIMTEC-World Ceramics Congress & Forum on New Materials, Florence, Italy, June 14-19, 1998, pp.1-4.
32.      C. C. Chou, C. S Hou, G. C. Chang and H. F. Cheng, “Pulsed Laser Deposition of Ferroelectric Pb0.6Sr0.4TiO3 Thin Films on Perovskite Substrates,” ICSFS-9, Copenhagen, Denmark (1998).
33.      C. C. Chou, P. H. Chen, I. N. Lin, “Microstructural Characteristics of Microwave Sintered Semi-conductive Pb0.6Sr0.4TiO3 Ceramics,” AFM-2, Singapore (1998).
34.      C. S. Hou, C. C. Chou and H. F. Cheng, “Substrate Effect on Pb0.6Sr0.4TiO3 Thin Films Growth by Pulsed-Laser-Deposition”, AFM-2, Singapore (1998).
35.      C.S. Hou and C. C. Chou, “Fatigue Properties and Microstructural Evolution of (Pb1-xSrx)TiO3 Ceramics” , AFM-2, Singapore (1998)
36.      C. C. Chou and P. H. Chen, “Domain Structures and Polarization Arrangements in PbTiO3 Single Crystals,” AFM-2, Singapore (1998)
37.      C. C. Chou, H. C. Pan C. R. Lin and D. S. Tsai, “Ferroelectric properties of (Pb,Ca)TiO3 ceramics under cyclic polarization switching” AFM-3, Hong-Kong (2001) .
38.      P. H. Chen, H. C. Pan, C. C. Chou and I. N. Lin, “Microstructures and properties of semiconductive (Pb0.6Sr0.4)TiO3 ceramics using PbTiO3-coated SrTiO3 Powders,” AFM-3, Hong-Kong (2001) .
39.      C.S. Chen, C. C. Chou and I. Nan Lin,”Microwave dielectric properties of glass-ceramic composites for low temperature co-fired ceramics,” AFM-3, Hong-Kong (2001) .
40.      C. C. Chou, D. S. Tsai and I. Nan Lin, “Microstructural defects in Ba (Mg1/3 Ta2/3)O3 Microwave Dielectric Materials,” AFM-3, Hong-Kong (2001).
41.      C. C. Chou, I-Wei Su and D. S. Tsai, “Microstructural Characteristics of (Pb1-x Cax)TiO3 Materials,” AFM-3, Hong-Kong (2001) .
42.      C.-L. Li and C.-C. Chou, “Electric Properties and Microstructures of Microwave Sintered PZN-(PZT) Based Ceramics”, IFFF 2002, Nara, Japan (2002).
43.      C.-C. Chou, I-W. Su and D.-S. Tsai, “Octahedral Tilting Domain Boundary in Calcium-modified Lead Titanate Ceramic”, IFFF 2002, Nara, Japan (2002).
44.      Han-Chang Pan, Jiun-Nan Sheng, Chen-Chia Chou and Hsiu-Fung Cheng, “Electrical Properties of      Ferroelectric PbSrTiO3 Films on Stainless Steel Substrates With LaSrMnO3 Buffer Layers”, IFFF 2002, Nara, Japan (2002).
45.      Han-Chang Pan, Hsien-Lung Tsai and Chen-Chia Chou, “Low-Temperature Preparation of PbZrTiO3/Pt/TiNi/Si Heterostructure by Laser Annealing”, IFFF 2002, Nara, Japan (2002).
46.      C.S. Chen, C. C. Chou and I. Nan Lin,”Microwave dielectric properties of glass-ceramic composites for low temperature co-fired ceramics,” IFFF 2002, Nara, Japan (2002).
47.      C. C. Chou, D. S. Tsai and I. Nan Lin, “Microstructural defects in Ba (Mg1/3 Ta2/3)O3 Microwave Dielectric Materials,” IFFF 2002, Nara, Japan (2002).
48.      C. C. Chou, I-Wei Su and D. S. Tsai, “Microstructural Characteristics of (Pb1-x Cax)TiO3 Materials,” IFFF 2002, Nara, Japan (2002).
49.      Jing-Tang Yang, Han-Chang Pan, Hsien-Lung Tsai and Chen-Chia Chou, “Ferroelectric and pyroelectric properties of sol-gel derived pbcatio3 thin films using low-temperature annealing process, ISIF, Colorado ,USA,(2003).
50.      Cheng-Sao Chen, Chi-Hua Hsu and Chen-Chia Chou,” Microstructures and Piezoelectric Properties of Microwave-Sintered Pb(Mn1/3Nb2/3)0.1Zr0.52Ti0.38O3 Ceramics”, ISIF, Colorado ,USA,(2003).
51.      C.-S. Chen, S. K. Lin, C.-C. Chou, “Piezoelectric Properties of Microwave-Sintered (Pb0.76Ca0.24)[(Co0.5W0.5)0.04Ti0.96]O3 Ceramics, ISIF, Colorado ,USA,(2003).
52.      Chen-Liang Li and Chen-Chia Chou, “Preparation of PZN-based ceramics using sequential mixing columbite method,” ISIF, Colorado ,USA,(2003).
53.      Cheng-Sao Chen, Chen-Chia Chou, Wei-Chun Yang, Chen-Ti Hu, and I-Nan Lin,” TEM microstructures of X7R type base-metal-electroded BaTiO3 capacitor materials co-doped with MgO/Y2O3 additives,” India, AMF-4
54.      Chen-Chia Chou, Cheng-Sao Chen, I-Nan Lin, Wei-Chun Yang,” Development of X7R type base-metal-electroded BaTiO3 capacitor materials by co-doping of MgO/Y2O3 additives,. India, AMF-4
55.      Chen-Liang Li, Chen-Chia Chou and Dah-Shyang Tsai, “Preparation of PZN-BT-PZT ceramics using A-site element sequential mixing columbite method,” Electroceramics IX, Chebourg, France (2004).
56.      Cheng-Sao Chen, Chen-Chia Chou, and I-Nan Lin, “Microstructures of X7R type base-metal-electroded BaTiO3 capacitor materials prepared by duplex-structured process,” Electroceramics IX, Chebourg, France (2004)
57.      Chen-Chia Chou, Chun-Shu Hou and Tsung-Her Yeh, “Domain Pinning Behavior of Ferroelectric Pb1-xSrxTiO3 Ceramics,” Electroceramics IX, Chebourg, France (2004).
58.      H. F. Cheng, C. C. Li and C. C. Chou, “Dielectric properties and Vacancies of Microwave Sintered Lead Zinc Niobate Ceramics” , ISPN -2
59.      Tsung-Her Yeh, Wei-Chi Hsu and Chen-Chia Chou,” Doping Effect and Vacancy Formation on Ionic Conductivity of Zirconia Ceramics”, ISPN -2
60.      Chen-Liang Li and Chen-Chia Chou, “Reduction of sintering energy and evaporation for PZN-based ceramics using microwave process,” EMSG-5, Paris, France (2005)
61.      Tsung-Her Yeh, Wei-Chi Hsu and Chen-Chia Chou,”Mechanical and Electrical properties of ZrO2(3Y) doped with (RE)NbO4 Oxides (RE=Yb, Er, Y, Dy, Y0.5Nd0.5, Sm, Nd)” EMSG-5, Paris, France (2005).
62.      Cheng-Sao Chen and Chen-Chia Chou, “Rietveld Refinement On BaTiO3 Materials Doped With MgO / Y2O3 Additives,” AMF-5, Tokyo, Japan (2006).
63.      Sia-Yu Wu, Chia-Hung Li and Chen-Chia Chou, “Ferroeletric and Fatigue Properties of Conventional and Microwave Sintering Lead Zinc Niobate-Related Ceramics,” AMF-5, Tokyo, Japan (2006).
64.      Bo-Heng Liou, Chih-Chieh Yu and Chen-Chia Chou, “Low Temperature Preparation of PZT Thin Films On Different Substrates By Co2 Laser Annealing,” AMF-5, Tokyo, Japan (2006)
65.      Chen-Liang Li, Pin-Yi Chen and Chen-Chia Chou, “Dielectric Behavior and Microstructures of Modified Pb (Zn1/3Nb2/3) O3 Relaxor Ferroelectric Ceramics under Different Columbite Methods,” AMF-5, Tokyo, Japan (2006).
66.      R.-B. Lee, S. Mahboob, M. B. Suresh and C.-C. Chou, “Pyroelectric Property Enhancement of Pb1-xCaxTiO3 Thin Films Using Low Temperature Laser Annealing Process”, FMA-24, Kyoto, Japan (2007)
67.      D.-C. Shye, M.-W. Kuo, B.-S. Chiou, J.-S. Chen, C.-C. Chou and H.-C. Cheng, “Characteristics of Nano-Scaled Chromium Layers Integrated into (Ba, Sr)TiO3 Cell Capacitors”, FMA-24, Kyoto, Japan (2007)
68.      Tsung-Her Yeh and Chen-Chia Chou, “Co-doping effect on Microstructural feature and Ionic Conductivity of Aliovalent cations modified Ceria” , ISFM-2, 中國杭州 (2007)
69.      Shen-Da Tsai, M.Buchi Suresh and Chen-Chia Chou, “Improvement in ferroelectric properties of PZT thick films prepared by a modified sol-gel technique using low temperature laser annealing”, ISFM-2,中國杭州 (2007)
70.      Chen-Liang Li, Madireddy Buchi Suresh and Chen-Chia Chou, “Electrical properties and grain growth kinetics of PZN-based ceramics using microwave sintering”, ISFM-2,中國杭州 (2007)
71.      Cheng-Sao Chen, Chen-Chia Chou, “ Microstructure and Dielectric Properties of Nano-Grained X7R Type BaTiO3 Ceramic Capacitors Sintered by 2.45 GHz Microwave”, ISFM-2, 中國杭州 (2007)
專書.技術報告
  1. 周振嘉, “中碳鋼球化處理”, 碩士論文, 中山大學, 高雄, 台灣 (!983)
  2. C. C. Chou, “Microstructure Characteristic of Au-rich Au-Fe Alloys”, Ph.D. Dissertation, Univ. of Illinois at Urbana-Champaign, U. S. A. (1991)
  3. 周振嘉 陶瓷材料人員訓練與技術發展(一)……和成欣業股份有限公司
  4. 周振嘉 陶瓷材料人員訓練與技術發展(二)…….和成欣業股份有限公司
  5. 周振嘉 “利用形狀記憶合金改善IC封膠模具導引銷子變形問題”……台灣德州儀器股份有限公司
  6. 周振嘉1994材料科技教育改進計畫……教育部教案(材料實驗)
  7. 周振嘉1995材料科技教育改進計畫……教育部教案(材料實驗方法)
  8. 周振嘉,”鈦酸鉛與鈦鋯酸鉛系粉末製程之研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國81年。1992(研究計畫成果報告)
  9. 周振嘉,”鈦酸鉛單晶成長及其電域結構之研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國82年。1993(研究計畫成果報告)
  10. 周振嘉,”鈦酸鉛系鐵電陶瓷粉末製作及燒結”行政院國家科學委員會,專題研究計畫成果報告,中華民國82年。1993(研究計畫成果報告)
  11. 周振嘉,”氧化鋁韌化陶瓷粉末製程及燒結”行政院國家科學委員會,專題研究計畫成果報告,中華民國82年。1993(研究計畫成果報告)
  12. 周振嘉,”鈦鋯席酸鉛陶瓷相變化與微觀結構之研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國83年。1994(研究計畫成果報告)
  13. 周振嘉,”鎳鈦形狀記憶合金相變化溫度與熱處理之關係”行政院國家科學委員會,專題研究計畫成果報告,中華民國83年。1994(研究計畫成果報告)
  14. 周振嘉,”碳化鎢刀具微觀結構分析及合金設計”行政院國家科學委員會,專題研究計畫成果報告,中華民國84年。1995(研究計畫成果報告)
  15. 周振嘉,”脈衝雷射鍍製作鑭鍶鈷氧化物電極及鐵電薄膜之研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國85年。1996(研究計畫成果報告)
  16. 周振嘉,”雷射鍍大面積鐵電薄膜與微觀結構之研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國87-88年。1998-9(研究計畫成果報告)
  17. 周振嘉,” 鐵電薄膜製備及其記憶元件之應用-脈衝雷射鍍膜法製備鐵電薄膜及其微觀結構之研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國89年。2000(研究計畫成果報告)
  18. 周振嘉,” 智慧型鐵電薄膜合成與應用於微感測元件研究”行政院國家科學委員會,專題研究計畫成果報告,中華民國87/8-90/7年。1998/8-2001/7(研究計畫成果報告)
  19. 周振嘉 陶瓷材料人員訓練與技術發展(一)
  20. 周振嘉 陶瓷材料人員訓練與技術發展(二)
  21. 周振嘉 “利用形狀記憶合金改善IC封膠模具導引銷子變形問題”
  22. 周振嘉1994材料科技教育改進計畫……教育部教案(材料實驗)
  23. 周振嘉1995材料科技教育改進計畫……教育部教案(材料實驗方法)
  24. 周振嘉2000 “新型刀具材料研發”
  25. 周振嘉2001 “薄膜金屬電極材料研發”
  26. 周振嘉 2002, “壓電變壓器研發”
  27. 周振嘉 2001--2003 “氧氣感測器研發”
  28. 周振嘉 2003 “厚膜元件開發”

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