研發人才




王錫福

材料及資源工程系

學經歷:
  現職:奈米光電磁材料技術研發中心主任
工程學院院長
工程科技研究所所長

最高學歷:美國賓州大學陶瓷科學博士

專業技術
  陶瓷薄膜、材料光電磁性質、奈米材料製程
   
研發介紹
  ◎ 期刊論文
  1. S.F. Wang, Y.F. Hsu, J.C. Pu, J.C. Sung, and L.G. Hwa, “Determination of Acoustic Wave Velocities and Elastic Properties for Hard Materials,” accepted for publication in Materials Chemistry and Physics. (SCI, EI)

2. S.F. Wang, Y.R. Wang, T. Mahalingam, J.P. Chu, and K.U. Lin, “Characterization of Hydrothermally Synthesized Lead Zirconate Titanate (PZT) Ceramics,” accepted for publication in Materials Chemistry and Physics. (SCI, EI)

3. J. P. Chu C. T. Liu, T. Mahalingam, S. F. Wang, M. J. O’Keefe, B. Johnson, C. H. Kuo, “Annealing Induced Full Amorphization in a Multicomponent Metallic Films,” Physical Review B, 69, 113410 (2004). (SCI, EI)

4. J. P. Chu, T. Mahalingam, and S. F. Wang, “The Structure and Magnetic Properties of Sputtered FePtM (M=Ta, Cr) Thin Films,” accepted for publication in Journal of Physics: Condensed Matter. (SCI, EI)

5. Y.F. Hsu, S.F. Wang and T.W. Cheng, “Effects of Additives on the Densification and Microstructural Evolution of Fine q-Al2O3 Powder,” Journal of Materials Science and Engineering, A362, 300-306 (2003). (SCI, EI)

6. S.F. Wang, Y.F. Hsu, R.L. Lee, and Y.S. Lee, “Microstructural Evolution and Phase Development of Nb and Y Doped TiO2 Films Prepared by RF Magnetron Sputtering,” accepted for publication in Applied Surface Science. (SCI, EI)

7. J. P. Chu, C. W. Chang, T. Mahalingam, C. C. Lin and S. F. Wang, "Effects of Nb Doping on Properties of Barium Titanate Thin Films," Journal of Materials Science Letters, 22 [18], 1269-1273. (SCI, EI)

8. J. P. Chu, C. W. Chang, T. N. Lin, C. H. Lin and S. F. Wang, “Two-Stage Crystallization of Sputtered BaTiO3-based Thin Films,” submitted to Journal of Applied Physics. (SCI, EI)

9. T. Mahalingam, J. P. Chu, J. H. Chen, C. L. Chiang, and S. F. Wang, “Synthesis and Characterization of Fe100-xPtx Alloy Thin Films,” Materials Chemistry and Physics, 82 [2], 335-340 (2003). (SCI, EI)

10. J.P. Chu, T. Mahalingam, Y.Y. Hsieh, S.F. Wang, K. Inoue, “Structure and Magnetic Properties of Sputtered Fe100-xPtx Alloy Thin Films,” Materials Science Forum, 426-432, 3385-3390 (2003). (SCI, EI)

11. C.H. Lin, J.P. Chu, T. Mahalingam, T.N. Lin, and S.F. Wang, “Thermal Stability Improvement for Sputtered Copper Films Containing Dilute Insoluble Tungsten,” Journal of Materials Research, 18 [6], 1429-1434 (2003). (SCI, EI)

12. C.H. Lin, J.P. Chu, T. Mahalingam, T.N. Lin, and S.F. Wang, “Sputtered Copper Films with Insoluble Mo for Cu Metallization: A Thermal Annealing Study,” Journal of Electronic Materials, 32 [11], 1235-1239 (2003). (SCI, EI)

13. T. Mahalingam, J. P. Chu, J. H. Chen, S. F. Wang, K. Inoue, “Microstructure and Magnetic Properties of Sputtered Fe-Pt Thin Films,” Journal of Physics: Condensed Matter, 15, 2561-2571 (2003). (SCI, EI)

14. S.F. Wang, C.C. Chung, J.P. Chu, and C.Y. Huang, “Effects of Additives on the Microstructure and Dielectric Properties of Ba2Ti9O20 Microwave ceramic,” Journal of Materials Research, 18 [5], 1179-1187 (2003). (SCI, EI)

15. S.F. Wang, C.C. Chung, C.H. Wang, and J.P. Chu, “On the Phase Stability of B2O3 added Ba2Ti9O20 Ceramic: Processing Effects,” Journal of Materials Research, 18 [1], 201-207 (2003). (SCI, EI)

16. S.F. Wang, Y.R. Wang, T.C.K. Yang, C.C. Chung, and S.H.Y. Tsai, “Effects of Additives on the Phase Stability and Microstructural Evolution of Ba2Ti9O20 Microwave Ceramic,” Ceramic International, 29 [1], 77-81 (2003). (SCI, EI)

17. S.F. Wang, C.C. Chung, and C.H. Wang, “Effects of B2O3 on the Phase Stability of Ba2Ti9O20 Microwave Ceramic,” Journal of American Ceramic Society, 85 [6], 1619-1622 (2002). (SCI, EI)

18. T.C.K. Yang, S.F. Wang and J.C. Juang, “The Effects of Lamination Conditions on Sintered Properties of Microelectronic Packaging Glass ceramic Substrates,” accepted for publication in IEEE Transaction on Components, Packaging, and Manufacturing Technology - Part B: Advanced Packaging. (SCI, EI)

19. S.F. Wang, C.C. Chung, and C.H. Wang, “Effects of B2O3 on the Phase Formation of Ba2Ti9O20 Ceramic,” Materials Chemistry and Physics, 79 [2-3], 256-260 (2003). (SCI, EI)

20. T.C.K. Yang, S.H.Y. Tsai and S.F. Wang, “Dielectric and Thermal Studies of Inorganic Microfillers on Polymer Microwave Substrates – Metallocene Cyclic Olefin Copolymers (mCOC),” Composite Science and Technology, 62, 655-661 (2002). (SCI, EI)

21. T.C.K. Yang, H.S. Lin, S.F. Wang, and M.C. Cheng, “Design Analysis of the Belt Furnace for Microelectronic Ceramic Packaging Processing,” American Ceramic Society Bulletin, 80 [10], 43-48 (2001). (SCI, EI)

22. Y.R. Wang and S.F. Wang, “Liquid Phase Sintering of NiCuZn Ferrite and Its Magnetic Properties,” International Journal of Inorganic Materials, 3 [8], 1189-92 (2001). (SCI, EI)

23. J.P. Chu, C.J. Liu, C.H. Lin and S.F. Wang, “Characterizations of Superhard Cu Films Containing Insoluble W Prepared By Sputter Deposition,” Materials Chemistry and Physics, 72 [2], 286-89 (2001). (SCI, EI)

24. T.C.K. Yang, Y.C. Hsu, and S.F. Wang, “Phonological Studies of the New Gas-Induced Agitated Reactor,“ Environmental Technology, 22, 647-651 (2001). (SCI, EI)

25. S.F. Wang, T.C.K. Yang, and S.C. Lee, “Wettability of Electrode Metals on Barium Titanate Substrate,” Journal of Materials Science, 36 [4], 825-829 (2001). (SCI, EI)

26. T.C.K. Yang, S.F. Wang, S.H.Y. Tsai, and S.Y. Lin, “Intrinsic Photocatalytic Oxidation of the Dye Adsorbed on TiO2 Photocatalysis by Diffuse Reflectance Infrared Fourier Transform Spectroscopy,” Applied Catalysis B: Environmental, 30 [3-4], 293-301 (2001). (SCI, EI)

27. S.F. Wang, T.C.K. Yang, and Y.R. Wang, “Effects of Glass Composition on the Densification and Dielectric Properties of BaTiO3 Ceramics,” Ceramic International, 27 [2], 159-162 (2001). (SCI, EI)

28. J.P. Witham, C.A. Randall, U. Kumar, U. Selvaraj, S.F. Wang, and J.P. Dougherty, “Solution Hydrothermal Coated BaTiO3 for Low Temperature Firing,” U.S. Patent 6,169,049 (2001).

29. J.P. Chu, S.F. Wang, and S.J. Lee, “On Crystallization of Sputtered BaTiO3-based Thin Film: A Differential Scanning Calorimetry Study,” Journal of Applied Physics, 88 [10], 6086-6088 (2000). (SCI, EI)

30. S.F. Wang, Y.R. Wang, and T.C.K. Yang, “Effects of Processing on the Densification and Properties of Low Fire NiCuZn Ferrite,” Scripta Materialia, 43 [3], 269-274 (2000). (SCI, EI)

31. S.F. Wang, T.C.K. Yang, and J.P. Chu, "Liquid Phase Sintering and Chemical Inhomogeneity of LiF-Fluxed BaTiO3," Journal of Materials Research, 15 [2], 407-416 (2000). (SCI, EI)

32. S.F. Wang, Y.R. Wang, T.C.K. Yang, C.Y. Huang, P.J. Wang, and C.A. Lu, “Densification and Magnetic Properties of Low Fire NiCuZn Ferrite,” Journal of Magnetism and Magnetic Materials, 220 [2-3], 129-138 (2000). (SCI, EI)

33. S.F. Wang and Y.F. Hsu, “Electrical Conductivity and Thermal Expansion Coefficients of Interfacial Phases in Multilayer Ceramic Structure,” Ceramic International, 26 [6], 669-671 (2000). (SCI, EI)

34. S.F. Wang, Y.R. Wang, T.C.K. Yang, P.J. Wang, and C.A. Lu, “Densification and Properties of Fluxed Sintered NiCuZn Ferrite,” Journal of Magnetism ad Magnetic Materials, 217 [1-3], 35-43 (2000). (SCI, EI)

35. J.P. Chu, Y.W. Lai, T.N. Lin and S.F. Wang, “Deposition and Characterization of TiNi-Base Thin Films by Sputtering,” Materials Science and Engineering A, 277, 11-17 (2000). (SCI, EI)

36. S.F. Wang, and G.O. Dayton, "Dielectric Properties of Fine-Grain BaTiO3 Based X7R Dielectric,” Journal of American Ceramic Society, 82 [10], 2677-82 (1999). (SCI, EI)

37. S.F. Wang and K.C. Cheng "Liquid Phase Sintering and Chemical Inhomogeneity of BaTiO3-BaCO3-LiF System," Journal Chinese Institute of Engineer, 22 [1], 61-68 (1999). (EI)

38. U. Kumar, S.F. Wang, and W. Huebner, "Relaxor Ferroelectric Compositions for Transducers and Actuator Applications," United State Patent 5,759,432 (1998).

39. S.F. Wang, J.P. Dougherty, and W. Huebner, "Metallizations for Bi and Pb-Containing Dielectrics," United State Patent 5,391,223 (1995).

40. S.F. Wang, J.P. Dougherty, W. Huebner and J. Pepin, "A Review of Ag/Pd Thick Film Conductors," Journal of American Ceramic Society, 77 [12], 3051-72 (1994). (SCI, EI)

41. S.F. Wang, U. Kumar, Y.S. Chou, and H. Kunkel, “EFFECT of Preparation Parameters on the Induced Piezoelectric and Mechanical Properties of 0.90PMN0.10PT Ceramic,” Ferroelectrics, Vol. 158, 393-398 (1994). (SCI, EI)

42. T. Takada, S.F. Wang, S. Yoshikawa, S.J. Jang, and R.E. Newnham, “Effects of Glass Additions on (Zn,Sn)TiO4 for Microwave Applications,” Journal of American Ceramic Society, 77 [9], 2485-88 (1994). (SCI, EI)

43. T. Takada, S.F. Wang, S. Yoshikawa, S.J. Jang, and R.E. Newnham, “Effects of Glass Additions on BaO-TiO2-WO3 for Microwave Ceramics,” Journal of American Ceramic Society, 77 [7], 1909-16 (1994). (SCI, EI)

44. Y. Kuromitsu, S.F. Wang, S. Yoshikawa, and R.E. Newnham, “Interaction Between Barium Titanate and Binary Glasses,” Journal of American Ceramic Society, 77 [2], 493-98 (1994). (SCI, EI)

45. Y. Kuromitsu, S.F. Wang, S. Yoshikawa, and R.E. Newnham, “Evolution of Interfacial Microstructure Between BaTiO3 and Binary Glasses,” Journal of American Ceramic Society, 77 [3], 852-56 (1994). (SCI, EI)

46. U. Kumar, S.F. Wang, U. Selvaraj, and J.P. Dougherty, “Densification and Dielectric Properties of Hydrothermal BaTiO3 with Different Sources of Bi2O3,” Ferroelectrics, Vol. 154, 283-88 (1994). (SCI, EI)

47. S.F. Wang and W. Huebner, “Interaction of Ag/Pd Electrodes with Lead and Bismuth-Based Electroceramics,” Journal of American Ceramic Society, 76 [2], 474-80 (1993). (SCI, EI)

48. C.A. Randall, S.F. Wang and W. Huebner, “Microstructure and Dielectric Properties of LiF-Fluxed BaTiO3,” Journal of Materials Research, 8 [4], 871-79 (1993). (SCI, EI)

49. D.W. Yuan, S.F. Wang, W. Huebner, and G. Simkovich, “The Effect of Li-Salt Addition on the Densification of Tin Oxide,” Journal of Materials Research, 8 [7], 1675-79 (1993). (SCI, EI)

50. S.F. Wang, C.Y. Huang and W. Huebner, “Correction of Subsolidus Phase Relations in the Ag-Pd-O2 System to Oxidation/Reduction Kinetics and Dilatometric Behavior,” Journal of American Ceramic Society, 75 [8], 2232-39 (1992). (SCI, EI)

51. S.F. Wang and W. Huebner, “Interaction of Ag/Pd Metallization with Lead and Bismuth Oxide-Based Fluxes in Multilayer Ceramic Capacitors,” Journal of American Ceramic Society, 75 [9], 2339-52 (1992). (SCI, EI)

52. S.F. Wang and W. Huebner, “Thermodynamic Modeling of Equilibrium Subsolidus Phase Relations in the Ag-Pd-O2 System,” Journal of American Ceramic Society, 74 [6], 1349-53 (1991). (SCI, EI)
  ◎ 研討會論文
  1. Cheng-Jien Peng, Shih-Chieh Wang, Sea-Fue Wang, and Tzer-Sheng Lin, “Piezoelectric Thick Films Grown by Novel Aerosol Plasma Deposition For MEMS Applications,” 第7界奈米工程及微系?技術研討會,2003年11月20-21日。

2. 王士杰、黃俊銘、彭成鑑、徐永富、王錫福,”氣膠電漿鍍膜法製備鋯鈦酸鉛Pb(Zr0.52Ti0.48)O3厚膜之微結構與電性分析” 2003中國材料科學學會,崑山技術學院,台南。

3. 吳文榮、阮中奇、王錫福、楊重光,”燒結條件對莫萊石-玻璃陶瓷複合材之影響” 2003中國材料科學學會,崑山技術學院,台南。

4. 蒲瑞臻、王錫福、宋健民,”基板溫度對鑽石薄膜表面性質之分析研究” 2003中國材料科學學會,崑山技術學院,台南。

5. 王士杰、王錫福、彭成鑑 “Microstructure and Electrical Properties Analysis of Lead Zirconate Titanate Thick Films Deposited by Aerosol Plasma Deposition Method,” 中國陶業學會九十二年度年會論文集,pp.208-211,大同大學,台北。

6. 林彥名、王玉瑞、王錫福“燒結溫度對(Zn,Mg)TiO3微波介電陶瓷的影響” 中國陶業學會九十二年度年會論文集,pp.164-167,大同大學,台北。

7. 蘇純玉、鄭隆藤、許雅琪、王玉瑞、王錫福“低溫燒結BaO-Rn2O3-4TiO2微波陶瓷介電特性之研究” 中國陶業學會九十二年度年會論文集,pp.168-171,大同大學,台北。

8. 吳亭儀、韋文成、王錫福 “Formation Mechanism of Ba2Ti9O20 phase by ZrO2 Additive,” 中國陶業學會九十二年度年會論文集,pp.143,大同大學,台北。

9. 阮中奇、王錫福、楊重光、吳文榮 “添加莫來石對玻璃陶瓷的燒結影響” 中國陶業學會九十二年度年會論文集,pp.37-40,大同大學,台北。

10. 蒲瑞臻、王錫福、宋健民、華魯根 “鑽石與超硬材料之彈性波傳分析研究” 中國陶業學會九十二年度年會論文集,pp.41-44,大同大學,台北。

11. J.P. Chu, T. Mahalingam, S. F. Wang, K. Inoue, “Synthesis and Characterization of Sputtered FePt-based Alloy Thin Film,” submitted to 2003 MRS fall meeting.

12. 蒲瑞臻、王錫福、宋健民、華魯根 “鑽石單晶與鑽石厚膜之體波波傳分析研究” 2002中國材料科學學會,台灣大學,台北。

13. 王士杰、王錫福、彭成鑑 “氣膠電漿鍍膜法製備鋯鈦酸鉛Pb(Zr0.52Ti0.48)O3厚膜之研究” 2002中國材料科學學會,台灣大學,台北。

14. 林彥名、王玉瑞、王錫福 “以固態反應法合成鈦酸鋅微波介電陶瓷之研究” 2002中國材料科學學會,台灣大學,台北。

15. 鄭隆藤、蘇純玉、王玉瑞、王錫福 “BaO-(La1-xNdx)2O3-4TiO2 微波材料系統之結構與介電性質” 2002中國材料科學學會,台灣大學,台北。

16. 蘇純玉、鄭隆藤、許雅琪、王錫福 “BaO-Rn2O3-TiO2 微波材料系統之微結構與介電性質” 2002中國材料科學學會,台灣大學,台北。

17. 阮中奇、王錫福、楊重光、蔡獻逸 “玻璃微球與環狀金烯烴共聚合物(mCOC)複合材料之介電與熱性質研究” 2002中國材料科學學會,台灣大學,台北。

18. J.P. Chu, L.T. Wang, T. Mahalingam, S.F. Wang, ”Preparation and Characterization of Copper Films with Insoluble Niobium by Sputter Deposition,” 2002年中華民國鍍膜科技研討會論文集,pp. 315-320,崑山科技大學,台南。

19. 李瑞龍、林怡芬、王錫福、與徐永富,“攙雜劑與製程參數對射頻磁控濺鍍TiO2薄膜特性的研究”,中國陶業學會九十一年度年會論文集,pp. 172-175,國立台灣大學,台北。

20. 江傳宗、王錫福、王玉瑞、與徐永富,“B2O3對Ba2Ti-9O20介電陶瓷結構組織之影響”,中國陶業學會九十一年度年會論文集,pp.334-337,國立台灣大學,台北。

21. 林凱文、王錫福、王玉瑞、與彭成鑑,“製程條件對水熱合成法鋯鈦酸鉛粉末之物理特性影響”,中國陶業學會九十一年度年會論文集,pp.83-86,國立台灣大學,台北。

22. 劉筑芳、朱瑾、與王錫福,“Characterizations of Mn-doped BaTiO3 Thin Films Prepared by RF Sputter Deposition”中國陶業學會九十一年度年會論文集,pp.157-157,國立台灣大學,台北。

23. L.C.K. Liau, Y.T. Chen, T.C.K. Yang, and S.F. Wang, “Kinetic Analysis and Modeling of Poly(Vinyl Butyral)/Glass Ceramic/Metal Thermal Degradation Using Thermogravimetric Analysis and Neural Networks,” submitted to the 9th Asian Pacific Conference of Chemical Engineering Congress and 30th Annual Australasian Chemical Engineering Conference.

24. S.F. Wang, C.C. Chung, and C.H. Wang, “Effect of B2O3 on the Phase Stability of Ba2Ti9O20 Microwave Ceramic,” presented at 2001 Asia-Pacific Microwave Conference, Taipei, Taiwan, R.O.C., December 3-6, 2001.

25. S.S.Y. Lin, T.C.K. Yang, S.F. Wang, A.H. Chang, and W.H. Tao, “Influence of Thermal Treatment in Intrinsic Reactivity of Dye Degradation on TiO2 via Photocatalysis and Photosensitization,” the 1st International Conference on Semiconductor Photochemistry, Glasgow, U.K., July, 2001.

26. 江傳宗、王錫福,”添加物對Ba2Ti9O20微波介電陶瓷之燒結和顯微組織及介電特性研究” 2001中國材料科學學會,中興大學,台中。

27. 阮中奇、王錫福、王玉瑞、林凱文、楊重光、彭成鑑,”水熱合成法中製程參數對鋯鈦酸鉛粉末的影響” 2001中國材料科學學會,中興大學,台中。

28. 李瑞龍、范成威、徐永富、王錫福”,”微量Nb2O5及La2O3添加物對q-Al2O3微粉燒結之影響” 2001中國材料科學學會,中興大學,台中。

29. 朱瑾、陳俊旭、王錫福、施雅鍾,”鐵鉑濺鍍薄膜之顯微組織、結晶結構及磁性探討” 2001中華民國鍍膜科技研討會,勞工教育學苑,鹿港鎮。

30. W. T. Yeh, M.C. Kan, S.F. Wang, and J. Sung, “The Carbon Implantation in Silicon by Cathodic Arc,” presented in the Sixth Applied Diamond Conference/Second Frontier Carbon Technology joint Conference (ADC/FCT 2001), Budapest, Hungary.

31. W. T. Yeh, S.F. Wang, and J. Sung, “The Influence of Substrate Bias and Argon Flow on The Properties of Amorphous Diamond Deposited by Cathodic Arc,” presented in the Sixth Applied Diamond Conference/Second Frontier Carbon Technology joint Conference (ADC/FCT 2001), Budapest, Hungary.

32. T.C.K. Yang, H.S. Lin, S.F. Wang, and M.C. Cheng, “Dynamic Assessment of Induced Thermal Stresses on the Semiconductor Packaging Substrates in a Radiation Belt Furnace by Computation Fluid Dynamics,” presented at European Symposium on Computer Aided Process Engineering - 11, held in Kolding, Denmark, May 27-30, 2001.

33. 李瑞龍、范成威、王錫福、與徐永富,“過渡元素對毫微米q-氧化鋁的燒結影響”,中國陶業學會九十年度年會論文集,pp. 83-86,私立文化大學,台北。

34. 李筱菁、王錫福、徐永富、與吳亭儀,“以射頻磁控濺渡鍍法添加La鈦酸鋇薄膜之研究” 中國陶業學會九十年度年會論文集,pp. 14,私立文化大學,台北。

35. 王錫福、江傳宗,王玉瑞、賴家鵬“Ba2Ti9O20微波介電陶瓷之相穩定研究”,中國陶業學會九十年度年會論文集,pp.213-218,私立文化大學,台北。

36. 盧俊安、王玉瑞、王錫福、邱鳳倩,”水熱合成法合成微波介電陶瓷粉體之製備研究”,中國陶業學會九十年度年會論文集,pp.219-223,私立文化大學,台北。

37. 林彥名、盧俊安、王玉瑞、王錫福、蘇純玉,”n值對BaO-Sm2O3-nTiO2(n=3-5)系微波介電陶瓷之影響研究”, 中國陶業學會九十年度年會論文集,pp.224-228,私立文化大學,台北。

38. 朱瑾、劉啟人、與王錫福, “Characterization and Synthesis of Copper Films with Insoluble Tungsten by Sputter Deposition”,中國材料科學學會八十九年度年會論文集,J-15,義守大學,高雄縣。

39. 王錫福、江傳宗“The Effects of Additives on the Microstructure and Electrical Properties of the Microwave Ceramic”,中國礦冶學會八十九年度年會論文集,大漢工學院,花蓮。

40. 王錫福、徐永富、李筱菁、與吳亭儀,“The Effect of Annealing Temperature on La-doped BaTiO3 Thin Film”,中國礦冶學會八十九年度年會論文集,大漢工學院,花蓮。

41. 王玉瑞、王錫福、盧俊安、林彥名,“TiO2含量對BaO-Sm2O3-TiO2微波介電陶瓷影響之研究”,中國礦冶學會八十九年度年會論文集,大漢工學院,花蓮。

42. 王玉瑞、王錫福、盧俊安、蘇純玉,“燒結條件對BaO-Sm2O3-4TiO2微波介電陶瓷影響之研究”,中國礦冶學會八十九年度年會論文集,大漢工學院,花蓮。

43. T.C.K. Yang, H.S. Lin, S.F. Wang, H.Y. Tsai, and M.C. Cheng, “Modeling of the transient Radiation/Convection Heat Transfer in Belt Furnaces for Electronic Packaging,” presentedn at 2000 AIChE Annual Meeting, held Los Angeles, CA, Nov. 12-17, 2000.

44. T.C.K Yang, Y.Y. Lin, W. Guo, T.H. Chang, and S.F. Wang, "In-situ Studies of the Photodegradation of a Dye Absorbed on TiO2 Particles by the drifts," pp683-687 in Proceedings of the 2nd Pacific Basin Conference on Adsorption Science and Technology, held in Brisbane, May 14-18, 2000.

45. Y.R. Wang, S.F. Wang, T.C.K. Yang, P.J. Wang, and C.A. Lu, “Densification and Properties of NiCuZn Ferrites Sintered with Glass Additives,” presented at the International Conferen
  ◎ 專利
  1. Relaxor Ferroelectric Compositions for Transducers and Actuator Applications, U.S. Patent 5,759,432 (1998).

2. New Metallizations for Bi and Pb- Containing Dielectrics, U.S. Patent 5,391,223 (1995).

3. Solution Coated BaTiO3 for Low Temperature Firing, U.S. Patent 6,169,049 (2001).

4. 許貫中、陳國賓、應國良、韋文誠、王錫福, “製備陶瓷粉末懸浮液的方法,” 中華民國專利第191427號。
   
專利介紹
 
  低溫燒結微波介電陶瓷  
本發明能有效降低ZST微波介電陶瓷之燒結溫度至1000℃以下,適合與熔點較低且較廉價之金屬電極共燒,......
 
  運用水熱合成法 完成馬加地石成品  
一種成本低廉且產製快速之矽酸鹽水熱合成法,可有效提升製備之效率。......
 
 
  熱傳導性矽酮組合物  
本發明係提供一種熱傳導性矽酮組合物,其以矽酮化合物為基材,再加入兩種成本低且不同配比及粒徑之填充物。......
 
  鈦酸鋇微波介電陶瓷低溫燒結  
本發明係為一種低溫燒結之鈦酸鋇微波介電陶瓷,其本體基材可以BaxTiyMzOx+2y+k表示;其中......
 
 
  半導體性質類鑽碳薄膜之製造方法  
一種半導體性質類鑽碳薄膜之製造方法,以射頻磁控濺鍍法在矽基板上製備含硼類鑽碳(B-DLC)薄膜,其使......
 
  介電陶瓷混合物  
一種介電陶瓷混合物,係包含了鈦酸鋇以及不同的特定元素,其中該鈦酸鋇為主原料,再添加七種不同配比之化合......
 
 
  以濺鍍法及其靶材設計,製作p型半導體類鑚碳薄膜  
本發明為一種半導體性質類鑽碳薄膜之製造方法,以射頻磁控濺鍍法在矽基板上製備含硼類鑽碳(B-DL......
 
  鈦人工植體表面處理方法  
一種鈦人工植體的表面處理方法係在表面油脂及雜質清潔後以氟化銨及硝酸的腐蝕水溶液,對鈦人工植體進行酸性......
 
 
  氧氣製造機  
本發明提供一種氧氣製造機,包括一具有蜂巢結構之本體,本體為一氧離子導電材料,本體並連接至一電壓源,該......
 
  電流式氧氣感測器  
本發明提供一種電流式氧氣感測器,用以偵測氣體的氧分壓,具有一本體,本體係為一氧離子導電材料,電流式氧......
 
 
  COMPOSITE ENCAPSULATING MATERIAL複合封裝材料  
The present invention is a composite encapsulating......
 
  玻璃-陶瓷複合物之封裝材料  
一種玻璃-陶瓷複合物之封裝材料,其中包含:玻璃母體SiO2、Al2O3、BaO及B2O3四種材料,並......
 
 
  介電陶瓷混合物 (X8R介電陶瓷材料  
一種介電陶瓷混合物之製備方法,係包含了鈦酸鋇以及不同的特定元素,其中該鈦酸鋇為主原料,再添加七種不同......
 
  複合封裝材料  
本發明為一種複合封裝材料,係由二氧化矽、三氧化二鋁、氧化釔及氧化鋅所組成,此複合封裝材料之玻璃轉化溫......
 
 
  具螺紋構造生醫植體及其選擇性表面處理的方法(孔洞選擇性地在螺距生成的生醫植體結構及使孔洞於生醫植體結構表面選擇性生長的方法  
本發明係提供一種具螺牙構造生醫植體及使孔洞於生醫植體結構表面選擇性生長的方法,其中生醫植體結構表面具......
 











國立臺北科技大學專利暨技術移轉中心


TAIWAN TECH GLORIA

  • © 2008-2021 NTUT All rights reserved.
    本系統採用 專利行銷平台