登革熱防疫專區 學雜費繳費單補發事宜 招生資訊服務網 評鑑專區 推廣教育招生 教師成長輔助系統 學生學習輔助系統 高中職策略聯盟學生英文學習平台

失物招領

工程學院電子工程系




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電子陶瓷研究室(E3713) /
電子陶瓷材料準備室(E3716)




更新日期:102年11月12日

一、研究主題:
  以反應燒結法(無煆燒製程)製備功能性陶瓷材料:
   1. 微波介電陶瓷。
   2. 燃料電池。
   3. 熱電陶瓷。

二、教師研究群:劉依政授、蔡文周助理教授。

三、開放時間:AM9:00至PM9:00。

四、研究生:
  在學:余建逸

  畢業:
    2012年:蘇琮仁、邱國彰、蔡志泓、林文慶、伍逸誠、郭嘉文
    2011年:蔡宗憲
    2010年:張劭暉、李威廷
    2009年:黃昱霖、李汪儒、王宗安、蘇世漳
    2008年:杜宗憲、王盈智
    2007年:劉冀陽、楊松齡


五、大學部專題生:
   在學:邱琮諺、黃茂原、林俊賢、郭俊佑、張永嘉、許瀚仁

   畢業:
    2012年:
    2011年:余建逸、楊政龍、林良緯、蔣緯霖、劉英鴻
    2010年:蘇琮仁
    2009年:蔡宗憲、蔡泓州、蕭嘉豪
    2008年:陳宏孟、洪峻澤、吳東璋
    2007年:黃啟翔、籃崇哲、黃昱霖、林明億、林文揚、李汪儒、李威廷

六、研究室成果(競賽):
 
 
七、研究室成果(論文):
  1.Yi-Cheng Liou*, Zong-Sian Tsai, Kuan-Zong Fung, Chi-Yang Liu, “Ni4Nb2O9 Ceramics Prepared by the Reaction–Sintering Process,” Ceram. Int., 36(6), pp 1887-1892, August, 2010. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  2.Yi-Cheng Liou, Song-Ling Yang, “Synthesis of Barium Cerate and Strontium Cerate Solid Electrolyte by A Reaction-Sintering Process,” J. Aust. Ceram. Soc., 46(1) 31-35, 2010.

  3.洪峻澤,劉依政,蔡文周,”以反應燒結法製備Zn0.99Ti0.01O熱電陶瓷,” 粉末冶金會刊, 35:2, pp 98-102, 2010,05[民99.05]. ( 2008年材料年會論文,編輯邀請刊登)

  4.吳東璋,劉依政,蔡文周,”以反應燒結法製備固態氧化物燃料電池電解質Gd0.1Ce0.9O1.95,” 粉末冶金會刊, 35:1, pp 17-20, 2010,02[民99.02]. ( 2008年材料年會論文,編輯邀請刊登)

  5.Yi-Cheng Liou*, Chi-Ting Wu, Yuh-Lin Huang, Tzu-Chin Chung, “Effect of CuO on CaTiO3 perovskite ceramics prepared using a direct sintering process”, J. Nuclear Mater., 393(2), pp 492-496, September 2009. (SCI, Nuclear Science & Technology), Impact Factor=1.933, Rank=1/33, 2009.

  6.Yi-Cheng Liou*, Dong-Zang Wu, Jia-Hao Siao, Wen-Chou Tsai “A simple and effective process for fabrication of Gd0.1Ce0.9O1.95 solid electrolyte ceramics,” Ceram. Int., 35(7), pp 2973-2977, September 2009. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  7.Yi-Cheng Liou*, Hong-Meng Chen, Wen-Chou Tsai, “Synthesis of Zn3Nb2O8 Ceramics Using a Simple and Effective Process,” Ceram. Int., 35(6), pp 2135–2138, August, 2009. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  8.Yi-Cheng Liou*, Wen-Chou Tsai, Hong-Meng Chen, “Low Temperature Synthesis of BiNbO4 Ceramics Using Reaction-Sintering Process,” Ceram. Int., 35(6), pp 2119–2122, August, 2009. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  9.Yi-Cheng Liou*, Ying-Tsun Chen, Wen-Chou Tsai, “Synthesis of temperature-stable microwave dielectric ceramics NiNb2O6 with TiO2 addition,” J. Alloys and Compounds, 477(1-2), pp 537-542, May, 2009. (SCI, Metallurgy & Metallurgical Engineering), Impact Factor=2.135, Rank=5/70, 2009.

  10.Yi-Cheng Liou*, Chao-Yang Shiue, Min-Hang Weng, “Synthesis and Properties of TiO2 Added NiNb2O6 Microwave Dielectric Ceramics Using a Simple Process,” J. Eur. Ceram. Soc., 29(6), pp 1165-1171, April, 2009. (SCI, Materials science, Ceramics), Impact Factor=2.090, Rank=1/25, 2009.

  11.Yi-Cheng Liou*, Uang-Ru Lee, “Non-calcining process for CuAlO2 and CuAl0.9Ca0.1O2 ceramics,” J. Alloys and Compounds, 467(1-2), pp 496–500, January, 2009. (SCI, Metallurgy & Metallurgical Engineering), Impact Factor=2.135, Rank=5/70, 2009.

  12.Yi-Cheng Liou*, Chi-Yang Liu, Kuan-Zong Fung, “Synthesis and Properties of Ba2La3Ti3NbO15 Ceramics by a Reaction-Sintering Process,” Ceram. Int., 34(8), pp 2079-2083, December, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  13.Yi-Cheng Liou, Song-Ling Yang, Chung-Che Lan, “Preparation of zinc- doped lanthanum strontium gallate solid electrolyte using a reaction-sintering process,” J. Aust. Ceram. Soc., 44(1) 34-38, 2008.

  14.Yi-Cheng Liou*, Wen-Chou Tsai, Wen-Yang Lin, Uang-Ru Lee, “Synthesis of Ca3Co4O9 and CuAlO2 Ceramics of the Thermoelectric Application Using a Reaction-Sintering Process,” J. Aust. Ceram. Soc., 44(1) 17-22, 2008.

  15.Yi-Cheng Liou*, Yi-Che Shih, Cheng-Jung Chuang, Ying-Tsun Chen, “Synthesis and Properties of (BaxPb1-x)(Zn1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics Using a Reaction-Sintering Process,” Ceram. Int., 34(6), pp 1413-1418, August, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  16.Yi-Cheng Liou*, Song-Ling Yang, “A simple and effective process for Sr0.995Ce0.95Y0.05O3-δ and BaCe0.9Nd0.1O3-δ solid electrolyte ceramics,” J. Power Sources, 179(2), pp553-559, May, 2008. (SCI, Energy & Fuels), Impact Factor=3.792, Rank=7/70, 2009.

  17.Yi-Cheng Liou* and Chi-Ting Wu, “Synthesis and Diffused Phase Transition of Ba0.7Sr0.3TiO3 Ceramics by a Reaction-Sintering Process,” Ceram. Int., 34(3), pp 517-522, April, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  18.Yi-Cheng Liou*, Yueh-Lun Sung, “Preparation of Columbite MgNb2O6 and ZnNb2O6 Ceramics by Reaction-Sintering,” Ceram. Int., 34 (2), pp 371-377, March, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  19.Yi-Cheng Liou*, Yow-Renn Chen, “Synthesis and Microstructure of (LaSr)MnO3 and (LaSr)FeO3 Ceamics by a Reaction-Sintering Process,” Ceram. Int., 34 (2), pp 273-278, March, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.686, Rank=3/25, 2009.

  20.Yi-Cheng Liou*, Pei-Hung Yeh, Ming-Jih Lin, “La0.9Sr0.1Ga0.57Mn0.43O3 Anode Ceramics of Solid Oxide Fuel Cells Produced Using Reaction-Sintering Process,” J. Aust. Cerm. Soc., 43[2], pp 147-149, 2007.

  21.Yi-Cheng Liou*, Song-Ling Yang, “Calcium Doped MgTiO3-MgTi2O5 Ceramics Prepared using a Reaction-Sintering Process,” Mater. Sci. and Eng. B, 142 (2-3), pp 116-120, September, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.

  22.Yi-Cheng Liou*, Ko-Hao Tseng and Tzu-Chin Chung, ”Effect of Dopants on BaTi4O9 and Ba2Ti9O20 Ceramics Prepared by Reaction-sintering Process,” J. Eur. Ceram. Soc., 27 (8-9), pp 3027-3032, 2007. (SCI, Materials science, Ceramics), Impact Factor=2.090, Rank=1/25, 2009. NSC94-2216-E-168-002

  23.Yi-Cheng Liou*, Chung-Yu Shih and Wen-Hau Shiu, “(5-x)BaO-xMgO-2Nb2O5 Ceramics Prepared using a Reaction-Sintering Process,” Mater. Res. Bull., 42(6), pp 1104-1110, June, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.

  24.Yi-Cheng Liou*, Chi-Ting Wu and Tzu-Chin Chung, “Synthesis and microstructure of SrTiO3 and BaTiO3 ceramics by a reaction-sintering process,” J. Mater. Sci., 42(10), pp 3580-3587, May, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=0.999, Rank=88/176, 2006.

  25.Yi-Cheng Liou*, Yi-Chen Huang and Chi-Ting Wu, “Preparation and Phase formation of Perovskite Pb(Ni1/3Nb2/3)O3 by a Reaction-Sintering Process,” J. Mater. Sci., 42(8), pp 2612-2617, April, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=0.999, Rank=88/176, 2006. NSC92-2218-E-168-017

  26.Yi-Cheng Liou* and Chi-Yang Liu, “A Simple and Effective Process for Ba3La2Ti2Nb2O15 Microwave Ceramics,” Mater. Sci. and Eng. A, 448, pp351-355, March, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=1.49, Rank=52/176, 2006.

  27.Yi-Cheng Liou*, Min-Hang Weng and Chao-Yang Shiue, “CaNb2O6 Ceramics Prepared by a Reaction-Sintering Process,” Mater. Sci. and Eng. B, 133[1-3], pp14-19, August, 2006. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.

  28.Yi-Cheng Liou*, Wen-Hau Shiu, Chung-Yu Shih, “Microwave Ceramics Ba5Nb4O15 and Sr5Nb4O15 Prepared by a Reaction-Sintering Process,” Mater. Sci. and Eng. B, 131[1-3], pp142-146, July, 2006. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.

  29.Yi-Cheng Liou*, Jen-Hsien Chen, Yi-Chen Huang, Chi-Ting Wu and Yow-Renn Chen, “Synthesis of Pb(Ni1/3Nb2/3)0.72Ti0.28O3 perovskite ceramics by a reaction-sintering process,” J. Electroceram., 16(3), pp213-220, May, 2006. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC92-2218-E-168-017

  30.Yi-Cheng Liou*, Min-Hang Weng, Jen-Hsien Chen and Hsueh-Yung Lu, “Synthesis of (Pb,Ca)(Fe0.5Nb0.5)1-xTixO3 ceramics by a reaction-sintering process,” Mater. Chem. & Phys., 97[1], pp143-150, May, 2006 (SCI, Materials science, Multidisciplinary), Impact Factor=1.657, Rank=45/176, 2006.

  31.Yi-Cheng Liou*, Jen-Hsien Chen, Hong-Wen Wang, Chi-Yang Liu, “Synthesis of (BaxSr1-x)(Zn1/3Nb2/3)O3 Ceramics by Reaction-Sintering Process and Microstructure,” Mater. Res. Bull., 41[3], pp455-460, March, 2006. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.

  32.Yi-Cheng Liou*, Chi-Ting Wu, Ko-Hao Tseng and Tzu-Chin Chung, “Synthesis of BaTi4O9 ceramics by reaction-sintering process,” Mater. Res. Bull., 40[9], pp1483-1489, September, 2005. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.

  33.Yi-Cheng Liou*, C. J. Chuang and Y. C. Shih, “Low-firing PZN-PFN-PFW relaxor ferroelectric ceramics produced by a reaction-sintering process”, Mater. Chem. & Phys., 93[1], pp26-30, September, 2005. (SCI, Materials science, Multidisciplinary), Impact Factor=1.657, Rank=45/176, 2006. NSC91-2216-E-168-006

  34.Yi-Cheng Liou*, Jen-Hsien Chen, and Chi-Ting Wu, “Barium Strontium Titanate Ceramics Prepared by a Reaction-Sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) FF3.3.1-FF3.3.6.

  35.Yi-Cheng Liou*, Jen-Hsien Chen and Hsueh-Yung Lu, “Preparation of (Pb,Ca)(Fe0.5Nb0.5)1-yTiyO3 Perovskite Ceramics by a Reaction-Sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) FF3.4.1-FF3.4.6.   36.Yi-Cheng Liou* and Chao-Yang Shiue, “Preparation of NiNb2O6 Columbite Ceramics by a Reaction-Sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) FF3.5.1-FF3.5.5.

  37.Yi-Cheng Liou*, Yi-Chen Huang and Chi-Ting Wu, “Formation Mechanisms of Perovskite Pb(Ni1/3Nb2/3)O3 in Reaction-sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) FF9.2.1-FF9.2.6.

  38.Yi-Cheng Liou*, Y. C. Shih and C. J. Chuang, “PZN-PFW and PFN-PFW Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” J. Electroceram., 13, pp457-461, July, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC91-2216-E-168-006

  39.Yi-Cheng Liou*, ”Pb((Mg0.7Zn0.3)1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” J. Electroceram., 13, pp453-456, July, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC91-2216 -E-168-006

  40.Yi-Cheng Liou*, “PMN-PFN Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process”, J. Electroceram., 12, pp187-190, March, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC91-2216-E-168-006

  41.Yi-Cheng Liou*, “Effect of Strontium Content on Microstructure in (LaxSr1-x)FeO3 Ceramics”, Ceram. Int., 30(5), pp667-669, July, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.

  42.Yi-Cheng Liou*, “Microstructure Development in (LaxSr1-x)MnO3 Ceramics,” Mater. Sci. and Eng. B, 108(3), pp.278-280, May, 2004. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.

  43.Yi-Cheng Liou* and Chung-Yu Shih, “Effect of Heating Rate on Properties of Pb(Fe1/2Nb1/2)O3 Ceramics Produced by Simplified Wolframite Route,” Ceram. Int., 30(4), pp.567-569, May, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.

  44.Yi-Cheng Liou*, “Effect of Heating Rate on Properties of Pb(Mg1/3Nb2/3)O3 Ceramics Produced by Reaction-Sintering process,” Mater. Lett., 58(6), pp.944-947, February, 2004. (SCI, Materials science, Multidisciplinary), Impact Factor=1.186, Rank=60/177, 2004.

  45.Jen-Hsien Chen and Yi-Cheng Liou*, “0.9Pb(Mg1/3Nb2/3)O3-0.1PbTiO3 Relaxor Ferroelectric Ceramics Produced by a Simplified Columbite Route and a Reaction-Sintering Process,” Ceram. Int., 30(2), pp.157-162, February, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.

  46.Yi-Cheng Liou* and Jen-Hsien Chen, “PMN Ceramics Produced by a Simplified Columbite Route,” Ceram. Int., 30(1), pp. 17-22, January, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.

  47.Yi-Cheng Liou*, “Stoichiometric Perovskite PMN-PT Ceramics Produced by Reaction-Sintering Process,” Mater. Sci. and Eng. B. 103(3) pp.281-284, October, 2003. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.

  48.Yi-Cheng Liou*, Ko-Hao Tseng, “Stoichiometric Pb(Mg1/3Nb2/3)O3 perovskite ceramics produced by reaction-sintering process,” Mater. Res. Bull., 38 (8), pp.1351-1357, July, 2003. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.

  49.Yi-Cheng Liou*, Chung-Yu Shih, and Chun-Hung Yu, “Stoichiometric Pb(Fe1/2Nb1/2)O3 perovskite ceramics produced by reaction-sintering process,” Mater. Lett., 57(13-14), pp.1977-1981, April, 2003. (SCI, Materials science, Multidisciplinary), Impact Factor=1.186, Rank=60/177, 2004.

  50.Jen-Hsien Chen, Yi-Cheng Liou*, and Ko-Hao Tseng, ”Stoichiometric perovskite lead magnesium niobate ceramics produced by reaction-sintering process,” Jpn. J. Appl. Phys., 42[1A] pp.175-181, January, 2003. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003.

  51.Yi-Cheng Liou* Chung-Yu Shih and Chun-Hung Yu, "Pb(Fe1/2Nb1/2)O3 perovskite ceramics produced by simplified wolframite route," Jpn. J. Appl. Phys., 41[6A], pp.3829-3831, June, 2002. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003.

  52.Yi-Cheng Liou*, Long Wu, Jow-Lay Huang and Chun-Hung Yu, “Anisotropy in Piezoelectric Properties of Calcium-Modified Lead Titanate Ceramics”, Jpn. J. Appl. Phys., 41[3A], pp.1477-1481, March, 2002. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003. NSC89-2216-E-168-002

  53.Long Wu and Yi-Cheng Liou*, “The Effect of Heating Rate on the Properties of PMN Relaxor Ceramics”, Ceram. Int., 21, pp.335-338, 1995. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.

  54.Long Wu and Yi-Cheng Liou*, “Properties of PMN and 0.9PMN-0.1PT Ceramics Sintered with Various Heating Rates”, Ferroelectrics, 168, pp.251-259, 1995. (SCI, Physics, Condensed matter), Impact Factor=0.547, Rank=46/54, 2000.

  55.Yi-Cheng Liou*, Long Wu, and Shyh-Shan Liou, “Pb(Mg1/3Nb2/3)O3 Ceramics Produced by Modified Two-Stage Calcination Process”, Jpn. J. Appl. Phys., 33[9B], part 2, pp.L1320-1322, 1994. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003.

  56.Yi-Cheng Liou* and Long Wu, “Effect of Heating Rate on the Dielectric Properties of the PMN-PT Relaxor Ceramics”, J. Am. Ceram. Soc., 77[12], pp.3255-3258, 1994. (SCI, Materials science, Ceramics), Impact Factor=2.017, Rank=1/25, 2000.


另有超過10篇已投稿或今年內將投稿之SCI期刊論文


研討會論文:
2005與2006材料年會發表論文最多學者

  1.Yi-Cheng Liou, “PMN Ceramics Produced by Simplified Columbite Route” 2001年材料年會, 中興大學, 海報論文P03-33, (11/23,24/2001).
  2.Yi-Cheng Liou, “0.9PMN-0.1PT Ceramics Produced by Simplified Columbite Route” 2001年材料年會, 中興大學, 海報論文P03-27, (11/23,24/2001).
  3.Yi-Cheng Liou, Chung-Yu Shih, and Chun-Hung Yu, “Pb(Fe1/2Nb1/2)O3 ceramics produced by simplified wolframite route,” 2001年材料年會, 中興大學, 海報論文P03-26, (11/23,24/2001).
  4.Yi-Cheng Liou, Chung-Yu Shih, and Chun-Hung Yu, “Pb(Fe1/2Nb1/2)O3 ceramics produced by reaction-sintering process,” 2001年材料年會, 中興大學, 海報論文P03-102, (11/23,24/2001).
  5.Yi-Cheng Liou, Ko-Hao Tseng, and Chun-Hung Yu, “Pb(Mg1/3Nb2/3)O3 ceramics produced by reaction-sintering process,” 2001年材料年會, 中興大學, 海報論文P03-09, (11/23,24/2001).
  6.Yi-Cheng Liou, Ko-Hao Tseng, and Chun-Hung Yu, “Stoichiometric PMN-PT Ceramics Produced by Reaction-Sintering Process,” 2001年材料年會,中興大學, 海報論文P03-17, (11/23,24/2001).
  7.Y. C. Liou, T. H. Shieh and Y. C. Shih, ”Pb((Mg0.7Zn0.3)1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics; ICE-2003, 3-7 August 2003, Massachusetts Institute of Technology, Cambridge, MA USA.
  8.Y. C. Liou, Y. C. Shih and C. J. Chuang, “PZN-PFW and PFN-PFW Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics; ICE-2003, 3-7 August 2003, Massachusetts Institute of Technology, Cambridge, MA USA.
  9.Y. C. Liou, J. H. Chen and C. J. Chuang, “PZN-PFN-PFW Relaxor Ferroelectric Ceramics with Low Sintering Temperature by a Reaction-Sintering Process,” International Conference on Electroceramics; ICE-2003, 3-7 August 2003, Massachusetts Institute of Technology, Cambridge, MA USA.
  10.Yi-Cheng Liou, Jen-Hsien Chen and Tung-Ho Shieh, “Microstructure in (LaxSr1-x)CoO3 Ceramics,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  11.Yi-Cheng Liou, “Effect of Strontium Content on Microstructure in (LaxSr1-x)FeO3 Ceramics,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  12.Yi-Cheng Liou and Jen-Hsien Chen, “Microstructure in (LaxSr1-x)MnO3 Ceramics,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  13.Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “Lead Zinc Niobate Based Ceramics Prepared by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  14.Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “PMN-PZN Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  15.Yi-Cheng Liou and Yi-Che Shih, “Microstructure in PZN-PFW Ceramics Prepared by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  16.Yi-Cheng Liou, Tung-Ho Shieh and Cheng-Jung Chuang, “PFN-PFW Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  17.Yi-Cheng Liou, Tung-Ho Shieh and Cheng-Jung Chuang, “PMN-PFN Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  18.Yi-Cheng Liou, Jen-Hsien Chen and Cheng-Jung Chuang, “PZN-PFN-PFW Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  19.Yi-Cheng Liou and Yi-Chen Huang, “Pb(Ni1/3Nb2/3)O3 perovskite ceramics produced by a reaction-sintering process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  20.Yi-Cheng Liou and Yi-Chen Huang, “Preparation of Pb(Ni1/3Nb2/3)O3-PbTiO3 perovskite ceramics by a reaction-sintering process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  21.Yi-Cheng Liou, “Effect of Heating Rate on Properties of Pb(Fe1/2Nb1/2)O3 Ceramics Produced by Simplified Wolframite Route,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
  22.Yi-Cheng Liou, “Effect of Heating Rate on Properties of Pb(Mg1/3Nb2/3)O3 Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會,崑山科技大學, 海報論文, (11/21,22/2003).
  23.呂學勇,陳仁賢, 劉依政, “以反應燒結法製備(Pb0.45Ca0.55)(Fe0.5Nb0.5)O3微波陶瓷,”2004年材料年會, 新竹市, 海報論文PB4-03, (11/17,18/2004).
  24.Kuo-Shiang Chang, Tung-Ho Shieh , Yi-Cheng Liou, “Preparation of Lead Zinc Niobate Based Ceramics by a Simplified Columbite Route,” 2004年材料年會, 新竹市, 海報論文PB4-10, (11/17,18/2004).
  25.王志豪,劉依政, “以簡化wolframite法製備PZN-PFN-PFW弛緩性鐵電陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-11, (11/17,18/2004).
  26.Yu-Cheng Chang, Tung-Ho Shieh , Yi-Cheng Liou, “Pb(Ni1/3Nb2/3)O3-PbTiO3 Perovskite Ceramics Prepared by a Simplified Columbite Route,” 2004年材料年會, 新竹市,海報論文PB4-12, (11/17,18/2004).
  27.薛朝陽,劉依政, “Columbite NiNb2O6 微波陶瓷之直接燒結製程,” 2004年材料年會, 新竹市, 海報論文PB4-13, (11/17,18/2004).
  28.Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Barium Strontium Ttitanate Ceramics Prepared by a Reaction-Sintering Process,” 2004年材料年會, 新竹市, 海報論文PB4-14, (11/17,18/2004).
  29.Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Synthesis and Microstructure of SrTiO3 and BaTiO3 Ceramics by Reaction-Sintering Process,” 2004年材料年會, 新竹市, 海報論文PB4-15, (11/17,18/2004).
  30.王宏文,陳仁賢,劉依政, “以反應燒結法製備Ba(Zn1/3Nb2/3)O3與Sr(Zn1/3Nb2/3)O3微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-16, (11/17,18/2004).
  31.Ruei-Shiang Shieh, Tung-Ho Shieh , Yi-Cheng Liou, “0.75PFW-0.25PT Perovskite Ceramics Preparation of by a Simplified Columbite Route,” 2004年材料年會, 新竹市, 海報論文PB4-17, (11/17,18/2004).
  32.Ruei-Shiang Shieh, Tung-Ho Shieh , Yi-Cheng Liou, “0.75PFW-0.25PT Perovskite Ceramics Produced by the Reaction-Sintering Process,” 2004年材料年會, 新竹市, 海報論文PB4-18, (11/17,18/2004).
  33.宋月倫,陳仁賢,劉依政, “以反應燒結法製備Columbite ZnNb2O6微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-19, (11/17,18/2004).
  34.宋月倫,陳仁賢,劉依政, “以反應燒結法製備Columbite MgNb2O6微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-20, (11/17,18/2004).
  35.王志豪,劉依政, “以簡化wolframite法製備PFN-PFW弛緩性鐵電陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-47, (11/17,18/2004).
  36.薛朝陽,陳仁賢,劉依政, “Columbite CaNb2O6 微波陶瓷之直接燒結製程,” 2004年材料年會, 新竹市, 海報論文PB4-55, (11/17,18/2004).
  37.王宏文,陳仁賢,劉依政, “以反應燒結法製備(BaxSr1-x)(Zn1/3Nb2/3)O3微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-68, (11/17,18/2004).
  38.呂學勇, 劉依政, “以反應燒結法製備(Pb0.45Ca0.55)[(Fe0.5Nb0.5)0.9Ti0.1]O3微波陶瓷,”2004年材料年會, 新竹市, 海報論文PB4-70, (11/17,18/2004).
  39.Yi-Cheng Liou, Yi-Chen Huang and Chi-Ting Wu “Formation mechanisms of perovskite Pb(Ni1/3Nb2/3)O3 in reaction-sintering process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
  40.Yi-Cheng Liou, Jen-Hsien Chen and Hsueh-Yung Lu, “Preparation of (Pb,Ca)(Fe0.5Nb0.5)1-yTiyO3 Perovskite Ceramics by a Reaction-Sintering Process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
  41.Yi-Cheng Liou and Chao-Yang Shiue, “Preparation of NiNb2O6 Columbite Ceramics by a Reaction-Sintering Process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
  42.Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Barium Strontium Titanate Ceramics Prepared by a Reaction-Sintering Process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
  43.薛朝陽,劉依政, “Columbite MNb2O6(M=Ni,Ca)微波陶瓷之直接燒結製程,” 2004ASTC, 高雄應用科大,海報論文PM07, (12/9,10/2004).
  44.王宏文,劉依政, “以反應燒結法製備添加微量CuO之(BaxSr1-x)(Zn1/3Nb2/3)O3微波陶瓷,” 2004ASTC, 高雄應用科大, 海報論文PM14, (12/9,10/2004).
  45.宋月倫,劉依政, “以反應燒結法製備Columbite ZnNb2O6與MgNb2O6微波介電陶瓷,” 2004ASTC, 高雄應用科大, 海報論文PM15, (12/9,10/2004).
  46.王志豪,劉依政, “以簡化wolframite法製備PZN-PFN-PFW與PFN-PFW弛緩性鐵電陶瓷,” 2004ASTC, 高雄應用科大, 海報論文PM20, (12/9,10/2004).
  47.吳騏廷,劉依政, ”以反應燒結製程製備鈦酸鋇鍶(BST)陶瓷,” 2004ASTC, 高雄應用科大, 海報論文QM07, (12/9,10/2004).
  48.呂學勇, 劉依政, “(Pb,Ca)(Fe,Nb)O3與(Pb,Ca)[(Fe,Nb)Ti]O3微波介電陶瓷反應燒結法製程,” 2004ASTC, 高雄應用科大, 海報論文QM08, (12/9,10/2004).
  49.Yi-Cheng Liou, Jen-Hsien Chen and Yueh-Lun Sung, ”Preparation of MgNb2O6 and ZnNb2O6 Columbite Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
  50.Yi-Cheng Liou and Hong-Wen Wang, ”(BaxSr1-x)(Zn1/3Nb2/3)O3 Ceramics Prepared by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
  51.Yi-Cheng Liou and Chi-How Wang, ”Preparation of PFN-PFW and PZN-PFN-PFW Relaxor Ferroelectric Ceramics by a Simplified Wolframite Route,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
  52.Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Preparation of BaTiO3 and SrTiO3 Perovskite Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
  53.Yi-Cheng Liou and Chi-Ting Wu, ”BaTi4O9 Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
  54.Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “Preparation of Ba-Modified PZN Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
  55.劉冀陽,王宏文,陳仁賢,劉依政,”添加CuO對Ba(Zn1/3Nb2/3)O3與Sr(Zn1/3Nb2/3)O3陶瓷微結構之影響,”中華民國陶業研究學會九十四年年會,台南市,D010, 5/25/2005.
  56.吳騏廷,劉依政, 陳仁賢,“添加CuO對反應燒結製程製備CaTiO3陶瓷之影響,”中華民國陶業研究學會九十四年年會, 台南市,D007, 5/25/2005.
  57.鍾子欽,曾科豪,吳騏廷, 劉依政,“以反應燒結製程製備Ba2Ti9O20微波介電陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B016, 5/25/2005.
  58.莊丞戎, 楊松齡, 劉依政,“以反應燒結法製備(Zr0.8Sn0.2)TiO4微波陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B013, 5/25/2005.
  59.陳佑任, 劉依政,“Pb(Mg1/3Nb2/3)O3之直接燒結氧化物製程,”中華民國陶業研究學會九十四年年會, 台南市,B011, 5/25/2005.
  60.許文豪,施宗佑,陳仁賢,劉依政,”以反應燒結法製備Ba5Nb4O15微波介電陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B009-2, 5/25/2005.
  61.許文豪,施宗佑,陳仁賢,劉依政,”以反應燒結法製備Sr5Nb4O15微波介電陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B009-1, 5/25/2005.
  62.鍾子欽, 劉依政,曾科豪,吳騏廷, “BaTi4O9微波介電陶瓷反應燒結法製程,” 第十二屆三軍官校基礎學術研討會, 岡山,C2-1,p.p.C57-C61 (6/3/2005).
  63.Yi-Cheng Liou, Tzu-Chin Chung, Ko-Hao Tseng, Chi-Ting Wu, “Synthesis of Ba2Ti9O20 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  64.Yi-Cheng Liou, Chi-Yang Liu, Hong-Wen Wang, ”Synthesis of Ba(Zn1/3Nb2/3)O3 and Sr(Zn1/3Nb2/3)O3 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  65.Yi-Cheng Liou, Jen-Hsien Chen, Yow-Renn Chen, ”(LaxSr1-x)FeO3 Ceramics Prepared by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  66.Yi-Cheng Liou, Yow-Renn Chen, Kuan-Ting Liu, ”Synthesis of Pb(Mg1/3Nb2/3)O3 and Pb(Fe1/2Nb1/2)O3 Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  67.Yi-Cheng Liou, Jen-Hsien Chen, Wen-Hau Shiu, Chung-Yu Shih, ”Ba5Nb4O15 and Sr5Nb4O15 Ceramics Prepared by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  68.Yi-Cheng Liou, Jen-Hsien Chen, Chao-Yang Shiue and Song-Ling Yang, ”Preparation of CaNb2O6 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  69.Yi-Cheng Liou, Jen-Hsien Chen, Song-Ling Yang, Cheng-Jung Chuang, ”MgTiO3-CaTiO3 Ceramics Prepared by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  70.Yi-Cheng Liou, Cheng-Jung Chuang, Song-Ling Yang, ”Synthesis of (Zr Sn)TiO4 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
  71.楊松齡,陳仁賢,劉依政,莊丞戎,”以反應燒結法製備MgTiO3微波陶瓷,” 2005年材料年會,淡江大學, 海報論文, (11/25,26/2005).
  72.楊松齡,陳仁賢,劉依政,莊丞戎,”MgO-CaO-TiO2微波介電陶瓷反應燒結法製程,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  73.楊松齡,陳仁賢,劉依政,莊丞戎,” 以反應燒結法製備MgO-SrO-TiO2微波介電陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  74.薛朝陽,楊松齡,翁敏航,劉依政,”CuO對反應燒結法製備CaNb2O6微波介電陶瓷之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  75.薛朝陽,楊松齡,翁敏航,劉依政,” CuO對反應燒結法製備NiNb2O6微波介電陶瓷之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  76.薛朝陽,楊松齡,陳仁賢,劉依政, ”以反應燒結法製備MNb2O6(M=Ni,Ca)生成相之探討,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  77.薛朝陽,楊松齡,翁敏航,陳仁賢,劉依政,”(1-x)NiNb2O6-xTiO2陶瓷之微波介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  78.莊丞戎,陳仁賢,劉依政,楊松齡,”不同添加物對反應燒結法製備(Zr0.8Sn0.2)TiO4微波陶瓷特性之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  79.鍾子欽, 曾科豪, 劉依政,”添加CuO對反應燒結製程製備BaTiO3之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  80.鍾子欽,曾科豪,陳仁賢,劉依政,”以無煆燒製程製造Ba0.8Sr0.2TiO3正溫度係數電阻陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  81.曾科豪,鍾子欽,翁敏航,吳騏廷,劉依政,”反應燒結法製備BaTi4O9陶瓷之微波介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  82.曾科豪,鍾子欽,劉依政,”低溫燒結BaTi4O9陶瓷介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  83.曾科豪,鍾子欽,翁敏航,吳騏廷,劉依政,”反應燒結法製備Ba2Ti9O20陶之瓷微波介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  84.曾科豪,鍾子欽,劉依政,”添加物對Ba2Ti9O20微波介電陶瓷之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  85.劉冀陽,陳仁賢,劉依政,”以反應燒結法製造Ba2La3Ti3NbO15微波介電陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  86.劉冀陽,陳仁賢,劉依政,”以反應燒結法製備Ba3La2Ti2Nb2O15微波介電陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  87.劉冀陽,王宏文,翁敏航,劉依政,”反應燒結法製備之(BaxSr1-x)(Zn1/3Nb2/3)O3陶瓷微波特性,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  88.劉冀陽,王宏文,翁敏航,劉依政,”反應燒結法製備之Sr(Zn1/3Nb2/3)O3陶瓷微波特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  89.宋月倫,劉冀陽,翁敏航,劉依政,”反應燒結法製備之ZnNb2O6陶瓷微波特性,”2005年材料年會, 淡江大學, 淡江大學, 海報論文, (11/25,26/2005).
  90.宋月倫,劉冀陽,劉依政,”反應燒結法製備ZnNb2O6之生成相探討,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  91.許文豪,施宗佑,陳仁賢,劉依政,”添加CuO對反應燒結製程製備Ba5Nb4O15陶瓷之影響,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  92.許文豪,施宗佑,陳仁賢,劉依政,”添加CuO對反應燒結法製備Sr5Nb4O15陶瓷之影響,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  93.施宗佑,許文豪,劉依政,”以反應燒結法製備(Ba5-xMgx)Nb4O15之微波介電陶瓷,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  94.施宗佑,許文豪,劉依政,”以反應燒結法製備SrO-MgO-Nb2O5之微波介電陶瓷,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  95.陳佑任, 劉依政,“以反應燒結法製備(LaxSr1-x)FeO3陶瓷,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  96.陳佑任, 劉依政,“(LaxSr1-x)MnO3陶瓷之反應燒結製程,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  97.呂學勇,陳佑任, 劉依政,“反應燒結法製備(Pb0.45Ca0.55)(Fe0.5Nb0.5)O3與(Pb0.45Ca0.55)[(Fe0.5Nb0.5)0.9Ti0.1]O3反應生成相之探討,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  98.呂學勇,陳佑任,翁敏航,劉依政,“反應燒結法製備之(Pb0.45Ca0.55)(Fe0.5Nb0.5)O3與(Pb0.45Ca0.55)[(Fe0.5Nb0.5 )0.9Ti0.1]O3陶瓷微波介電特性,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  99.蘇清輝,陳仁賢,劉依政,”以反應燒結法製備Ba3La3Ti4NbO18微波陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
  100.Yi-Cheng Liou, Ko-Hao Tseng and Tzu-Chin Chung, ”Effect of Dopants on BaTi4O9 and Ba2Ti9O20 Ceramics Prepared by Reaction-sintering Process,” MMA 2006 - Microwave Materials and Their Applications, 12–15 June 2006, Oulu, Finland.
  101.Yi-Cheng Liou, Jen-Hsien Chen, Chung-Yu Shih, Wen-Hau Shiu, “Synthesis of (5-x)SrO-xMgO-2Nb2O5 Ceramics by a Reaction-Sintering Process,” ELECTROCERAMICS X, Toledo (Spain) 18-22 June, 2006.
  102.莊學文,劉依政,宋月倫,陳盈圳, ”CuO與B2O3對反應燒結法製備ZnNb2O6微波介電陶瓷特性之影響,” 2006年電子通訊與應用研討會, 海報論文, AP015, 高雄應用科技大學(7/6/2006).
  103.蘇清輝,劉依政,陳仁賢, ”以反應燒結法製備Ba2La4Ti5O18微波陶瓷,” 2006年電子通訊與應用研討會, 海報論文, AP016, 高雄應用科技大學(7/6/2006).
  104.曾科豪,鍾子欽,吳騏廷,劉依政,”BaTi4O9與Ba2Ti9O20微波陶瓷之生成相探討,”2006年材料年會,成功大學, 海報論文, (11/24,25/2006).
  105.曾科豪,鍾子欽,吳騏廷,劉依政,“低溫燒結BaTi4O9之微波介電特性,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  106.曾科豪,鍾子欽,吳騏廷,劉依政,“添加物對Ba2Ti9O20陶瓷微波特性之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  107.陳佑任,劉依政,黃昱霖,“以反應燒結法製備(LaxSr1-x)CoO3陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  108.楊松齡,劉依政,籃崇哲,“以反應燒結法製備SOFC電解質SrCeO3-δ及BaCeO3-δ陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  109.楊松齡,劉依政,蔡文周,莊丞戎, “以反應燒結法製備MgTiO3-CaTiO3微波介電陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  110.楊松齡,劉依政,蔡文周,莊丞戎, “MgTiO3-SrTiO3微波陶瓷之直接燒結製程,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  111.楊松齡,劉依政,莊丞戎, “MgTiO3微波介電陶瓷之直接燒結製程,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  112.莊學文,陳盈圳,劉依政, “添加B2O3對反應燒結法製備ZnNb2O6微波介電特性影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  113.莊丞戎,劉依政,楊松齡, “添加La2O3與ZnO對反應燒結法製備(Zr0.8Sn0.2)TiO4微波介電陶瓷之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  114.黃昱霖,劉依政, “以反應燒結法製備固態燃料電池陰極陶瓷(La0.8Sr0.2)FeO3,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  115.施宗佑,許文豪,劉依政,陳坤能,“BaO-MgO-Nb2O5陶瓷生成相之探討,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  116.施宗佑,許文豪,劉依政,陳坤能,“反應燒結法製備之BaO-MgO-Nb2O5陶瓷之微波介電特性,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  117.施宗佑,許文豪,劉依政,“SrO-MgO-Nb2O5陶瓷生成相之探討,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  118.施宗佑,許文豪,劉依政,“反應燒結法製備之SrO-MgO-Nb2O5陶瓷微波介電特性,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  119.籃崇哲,劉依政,楊松齡,葉倍宏, “以反應燒結法製備應用於SOFC電解質之La0.8¬Sr0.2Ga0.8Zn0.2O2.8陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  120.黃啟翔,劉依政,蔡文周,葉倍宏, “以反應燒結法製備應用於固態燃料電池連接層之La0.8Sr0.2CrO3陶瓷體,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  121.劉冀陽,劉依政,林文揚,“添加CuO對反應燒結製程製備Ba2La3Ti3NbO15陶瓷之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  122.蘇清輝,陳仁賢,劉依政,“B2O3對反應燒結法製備Ba3La3Ti4NbO18微波介電陶瓷特性之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  123.蘇清輝,陳仁賢,劉依政,“CuO對反應燒結法製備Ba3La3Ti4NbO18微波介電陶瓷特性之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  124.陳盈圳,劉依政,“以反應燒結法製備Zn0.5Ti0.5NbO4微波介電陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
  125.黃啟翔,劉依政,蔡文周, “以反應燒結法製備應用於固態氧化物燃料電池連接層之La0.7Ca0.31CrO3陶瓷體,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  126.籃崇哲,楊松齡,劉依政, “以反應燒結法製備應用於固態氧化物燃料電池電解質之La0.8Sr0.2Ga0.83Mg0.17O2.815陶瓷體,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  127.黃昱霖,劉依政, “固態氧化物燃料電池陰極陶瓷(La0.8Sr0.2)FeO3之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  128.林文揚,劉依政, “熱電陶瓷Ca3Co4O9之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  129.李汪儒,劉依政, “熱電陶瓷CuAlO2之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  130.林明億,葉倍宏,劉依政, “以反應燒結法製備應用於固態氧化物燃料電池陽極之La0.8Sr0.2Cr0.8Mn0.2O3陶瓷,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  131.林明億,葉倍宏,劉依政, “應用於固態氧化物燃料電池陽極 La0.9Sr0.1Ga0.57Mn0.43O3陶瓷之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
  132.Yi-Cheng Liou, Song-Ling Yang, “Synthesis of barium cerate and strontium cerate solid electrolyte by a reaction-sintering process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  133.Yi-Cheng Liou, Song-Ling Yang, Chung-Che Lan, “Preparation of zinc-doped lanthanum strontium gallate solid electrolyte using a reaction-sintering process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  134.Yi-Cheng Liou, Yuh-Lin Huang, “La0.8Sr0.2FeO3 Cathode Ceramics of Solid Oxide Fuel Cells Prepared Using Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  135.Yi-Cheng Liou, Wen-Chou Tsai, Chii-Shyang Huang, “Reaction-sintering process for calcium-doped lanthanum chromite interconnect ceramics of solid oxide fuel cells,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  136.Yi-Cheng Liou, Pei-Hung Yeh, Ming-Jih Lin, “La0.9Sr0.1Ga0.57Mn0.43O3 Anode Ceramics of Solid Oxide Fuel Cells Produced Using Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  137.Yi-Cheng Liou, Wei-Ting Li, “Synthesis of 3BaO-2MgO-2Nb2O5 Microwave Dielectric Ceramics by a Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  138.Yi-Cheng Liou, Wen-Yang Lin, Uang-Ru Lee, “Synthesis of Ca3Co4O9 and CuAlO2 Ceramics for Thermoelectric Application Using a Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
  139.Yi-Cheng Liou, Wen-Chou Tsai, Song-Ling Yang, “Synthesis of 0.95MgTiO3-0.05CaTiO3 Ceramics by Reaction-Sintering,” 16th International Conference on composite materials, Kyoto, July 8-13, 2007.
  140.Pei-Hung Yeh, Yi-Cheng Liou, Ming-Jih Lin, “Preparation of La0.8Sr0.2Cr0.8Mn0.2O3 Anode Ceramics of Solid Oxide Fuel Cells Using a Reaction-Sintering Process,” ACTSEA-2007, Howard Beach Resort Kenting, Henhchun Town, Pingtung, Taiwan, Nov. 4-7, 2007.
  141.林明億,葉倍宏,劉依政,”CuO添加對SOFC陽極La0.9Sr0.1Ga0.57Mn0.43O3陶瓷之影響,”2007綠色能源研討會, 清雲科技大學, (11/9/2007).
  142.黃啟翔,劉依政,蔡文周,”B2O3對固態氧化物燃料電池連接層La0.8Sr0.2CrO3陶瓷特性之影響,”2007綠色能源研討會, 清雲科技大學, (11/9/2007).
  143.林文揚,劉依政,”熱電陶瓷Zn0.99Al0.01O之反應燒結法研究,” 2007年材料年會, 交通大學, 海報論文P01-094, (11/16,17/2007).
  144.李汪儒,劉依政,”熱電陶瓷CuAl0.9Ca0.1O2之反應燒結法研究,” 2007年材料年會, 交通大學, 海報論文P01-095, (11/16,17/2007).
  145.籃崇哲,劉依政,楊松齡,”製備應用於SOFC電解質之La0.8-Sr0.2Ga0.8Zn0.2O2.8陶瓷低溫燒結之研究,” 2007年材料年會, 交通大學, 海報論文P01-097, (11/16,17/2007).
  146.黃昱霖,劉依政,”固態氧化物燃料電池陰極陶瓷La0.85Sr0.15MnO3直接燒結製程之研究,” 2007年材料年會, 交通大學, 海報論文P01-098, (11/16,17/2007).
  147.黃啟翔,劉依政,蔡文周,”添加B2O3對反應燒結法製備固態氧化物燃料電池連接層La0.7Ca0.31CrO3陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P01-099, (11/16,17/2007).
  148.楊松齡,籃崇哲,劉依政,”添加CuO對反應燒結法製備SOFC電解質SrCeO3-δ陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P01-100, (11/16,17/2007).
  149.林明億,葉倍宏,劉依政,”添加CuO對反應燒結法製備SOFC陽極La0.8Sr0.2Cr0.8Mn0.2O3陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P01-101, (11/16,17/2007).
  150.劉冀陽,劉依政,林文揚,”添加B2O3對反應燒結製程製備Ba2La3Ti3NbO15陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P03-091, (11/16,17/2007).
  151.劉冀陽,劉依政,林文揚,”添加CuO對直接燒結製程製備Ba3La2Ti2Nb2O15陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P03-092, (11/16,17/2007).
  152.蘇清輝,劉冀陽,劉依政,方冠榮,”添加CuO與B2O3對反應燒結製程製備Ba3La3Ti4NbO18陶瓷微波介電特性的影響,” 2007年材料年會, 交通大學, 海報論文P03-094, (11/16,17/2007).
  153.陳盈圳,劉依政,方冠榮,”反應燒結法製備Ni0.5Ti0.5NbO4微波介電陶瓷,” 2007年材料年會, 交通大學, 海報論文P03-096, (11/16,17/2007).
  154.李威廷,劉依政,”以反應燒結法製備3BaO-2MgO-2Nb2O5微波介電陶瓷體,” 2007年材料年會, 交通大學, 海報論文P03-097, (11/16,17/2007).
  155.陳盈圳,劉依政,方冠榮,”以反應燒結法製備(1-x)ZnNb2O6-xTiO2微波介電陶瓷,” 2007年材料年會, 交通大學, 海報論文P03-098, (11/16,17/2007).
  156.莊學文,劉依政,陳盈圳,”添加B2O3對反應燒結法製備MgNb2O6微波介電陶瓷特性影響,” 2007年材料年會, 交通大學, 海報論文P03-099, (11/16,17/2007).
  157.莊丞戎,劉依政,楊松齡,”不同添加物對反應燒結法製備(Zr0.8Sn0.2)TiO4微波介電陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P03-100, (11/16,17/2007).
  158.Yi-Cheng Liou, Min-Hang Weng and Chao-Yang Shiue, “Synthesis and Properties of NiNb2O6 Ceramics Using a Reaction-Sintering Process,” International Symposium on Industrial Electronics, Mechatronics and Applications 2007, 16-17 November 2007, Cheng-Shiu University, Kaohsiung, Taiwan.
  159.Yi-Cheng Liou, Song-Ling Yang, “Synthesis of MgTiO3 and 0.97MgTiO3-0.03SrTiO3 Ceramics Using Various Magnesium Sources by a Reaction-Sintering Process,” International Symposium on Industrial Electronics, Mechatronics and Applications 2007, 16-17 November 2007, Cheng-Shiu University, Kaohsiung, Taiwan.
  160.Yi-Cheng Liou, Chii-Shyang Huang, “Low-temperature sintering of La0.8Sr0.2CrO3 Interconnect Ceramics for Solid Oxide Fuel Cells using a reaction-sintering process,” International Symposium on Industrial Electronics, Mechatronics and Applications 2007, 16-17 November 2007, Cheng-Shiu University, Kaohsiung, Taiwan.
  161.林文揚,洪峻澤,劉依政,”Zn0.98Al0.02O熱電陶瓷以反應燒結法製備,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  162.洪峻澤,劉依政,蔡文周, ”以反應燒結法製備Zn0.99Ti0.01O熱電陶瓷,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  163.Yi-Cheng Liou, Song-Ling Yang, ”Effects of MgO and Mg(OH)2 on MgTiO3-based microwave dielectric ceramics via a non-calcining process,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  164.Yi-Cheng Liou, Chi Yang Liu, ”Synthesis and properties of Ba4La(Sn0.75Ti0.25)Nb3O15 ceramics by a reaction-sintering process,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  165.王盈智,劉依政,蔡文周, ”以反應燒結製備CaO-Nb2O5-TiO2微波介電陶瓷,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  166.陳宏孟,劉依政,蔡文周, ”以反應燒結法製備Zn3Nb2O8微波介電陶瓷,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  167.李威廷,劉依政,蔡文周, ”以反應燒結製程製備ZnO-TiO2微波介電陶瓷及MgO添加之研究,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  168.陳宏孟,劉依政,翁敏航, ”微波介電陶瓷BiNbO4無煆燒製程之研究,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  169.黃昱霖,劉依政, ”CuO對固態氧化物燃料電池陰極陶瓷(La0.85Sr0.15)MnO3之特性影響,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  170.吳東璋,劉依政, 蔡文周, ”以反應燒結法製備固態氧化物燃料電池電解質Gd0.1Ce0.9O1.95,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
  171.蔡宗憲,劉依政,蔡文周, “以直接燒結法製備Mg4Nb2O9微波介電陶瓷,”2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
  172.蔡泓州,劉依政,蔡文周, “以無煆燒製程技術製備CuAl0.9Fe0.1O2熱電陶瓷,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
  173.蕭嘉豪,劉依政,蔡文周, “以反應燒結法製備固態氧化物燃料電池電解質Gd0.2Ce0.8O1.9,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
  174.王宗安,蔡文周,劉依政, “添加微量CeO2之BiNbO4微波介電陶瓷無煆燒製程之研究,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
  175.蘇世漳,蔡文周,劉依政, “以反應燒結法製備0.75MgAl2O4-0.25TiO2微波介電陶瓷,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
  176.杜宗憲,蔡文周,劉依政, “固態氧化物燃料電池陽極陶瓷Sr0.88Y0.08TiO3反應燒結製程之研究,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
  177.Yi-Cheng Liou, Zong-Sian Tsai, Wei-Ting Li, Ying-Jhih Wang, “A Simple and Effective Process for Fabrication of Mg4Nb2O9 Ceramics,” ICMAT 2009, 28 June-3 July 2009, Singapore.
  178.Yi-Cheng Liou, Hong-Chou Tsai, Wen-Chou Tsai, Uang-Ru Lee, “Synthesis of Cu(Al,Fe)O2 Thermoelectric Ceramics by a Reaction–Sintering Process,” ICMAT 2009, 28 June-3 July 2009, Singapore.
  179.蔡泓州,劉依政,”利用無煆燒製程技術製備CuAl0.8Fe0.2O2熱電陶瓷,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009).
  180.蕭嘉豪,劉依政,蔡文周,”Al2O3對固態氧化物燃料電池電解質Gd0.2Ce0.8O1.9陶瓷特性之影響,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009).
  181.蘇世漳,蔡文周,劉依政,”以反應燒結法製備0.8MgAl2O4-0.2TiO2微波介電陶瓷,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009).
  182.張劭暉,劉依政,蔡文周,”以反應燒結法製備CaCu3Ti4O12陶瓷,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009).
  183.陳宏孟,劉依政,”以反應燒結法製備ZnO-Nb2O5-TiO2 微波介電陶瓷之研究,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009).
  184.王盈智,劉依政,蔡文周,”溫度穩定性良好(Zn0.67Ni0.33)0.5Ti0.5NbO4微波介電陶瓷製備,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009). NSC 97-2221-E-168-003
  185.蔡宗憲,劉依政,蔡文周,”以直接燒結法製備Ni4Nb2O9微波介電陶瓷,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009). 98-2815-C-168 -002 -E
  186.王宗安,蔡文周,劉依政,”添加微量Sb2O5之BiNbO4微波介電陶瓷無煆燒製程之研究,” 2009年材料年會, 國立東華大學, 海報論文, (11/26,27/2009).
  187.蘇世漳,蔡文周,劉依政,”MgAl2O4微波介電陶瓷的製備,” 2010電子工程技術研討會, 義守大學, 海報論文, (6/18/2010).
  188.王宗安,蔡文周,劉依政,”添加CuO於(Bi,Ce)NbO4微波介電陶瓷反應燒結製程之研究,” 2010電子工程技術研討會, 義守大學, 海報論文, (6/18/2010).
  189.蔡宗憲,劉依政,蔡文周,”反應燒結法製備0.6Mg4Nb2O9-0.4SrTiO3微波介電陶瓷,” 2010年優質家庭生活科技關鍵技術研討會, 崑山科技大學, (11/4/2010). 98-2815-C-168 -002 –E
  190.楊政龍,蔡宗憲,劉依政,蔡文周,”反應燒結法製備Ba3LaNb3O12微波介電陶瓷,” 2010年優質家庭生活科技關鍵技術研討會, 崑山科技大學, (11/4/2010).
  191.Wen-Chou Tsai, Cong-Ren Su, Yi-Cheng Liou,” The preparation of microwave BiNbO4 dielectric ceramics by short time annealing,” 2010年優質家庭生活科技關鍵技術研討會, 崑山科技大學, (11/4/2010).
  192.蔡宗憲,劉依政,蔡文周, ”反應燒結法製備0.5Mg4Nb2O9-0.5CaTiO3微波介電陶瓷,” 2010年材料年會, 義守大學, 海報論文, (11/19,20/2010). 98-2815-C-168 -002 –E
  193.蔡泓州,劉依政,盧陽明,”利用無煆燒製程技術製備CuAl1-xMgxO2(x = 0.1、0.2)熱電陶瓷,” 2010年材料年會, 義守大學, 海報論文, (11/19,20/2010).
  194.張劭暉,劉依政,蔡文周, ”摻雜Nb對CaCu3Ti4O12陶瓷的影響,” 2010年材料年會, 義守大學, 海報論文, (11/19,20/2010).
  195.蔡文周,蘇世漳,劉依政, ”Mg0.3Al1.4Ti1.3O5陶瓷的製備與微波介電特性之研究,” 2010年材料年會, 義守大學, 海報論文, (11/19,20/2010).
  196.蔡文周,王宗安,劉依政, ”Bi0.97Ce0.03NbO4陶瓷之製備與微波介電特性之研究,” 2010年材料年會, 義守大學, 海報論文, (11/19,20/2010).
  197.林良緯,蔡宗憲,劉依政,蔡文周, “以反應燒結法製備ZnWO4微波介電陶瓷,” 2011電子通訊與應用研討會(2011 CECA), 國立高雄應用科技大學, 海報論文, (5/20/2011).
  198.楊政龍,蔡宗憲,劉依政,蔡文周, ”反應燒結法製備Ba2La2TiNb2O12微波介電陶瓷,” 2011電子通訊與應用研討會(2011 CECA), 國立高雄應用科技大學, 口頭發表論文, (5/20/2011).
  199.蔡宗憲,劉依政,蔡文周, ”反應燒結法製備4CoO-Nb2O5之微波介電陶瓷,” 2011電子工程技術研討會, 義守大學, 海報論文, (6/10/2011).
  200.楊政龍,蔡宗憲,劉依政,蔡文周, ”反應燒結法製備BaLa3Ti2NbO12微波介電陶瓷,” 2011電子工程技術研討會, 義守大學, 海報論文, (6/10/2011).
  201.林良緯,蔡宗憲,劉依政,蔡文周, ”以反應燒結法製備NiWO4微波介電陶瓷,” 2011電子工程技術研討會, 義守大學, 海報論文, (6/10/2011).
  202.蔣緯霖,劉依政,盧陽明,蔡泓州, ”利用反應燒結法製備BaxSr0.9-xY0.1TiO3熱電陶瓷,” 2011電子工程技術研討會, 義守大學, 海報論文, (6/10/2011).
  203.Yi-Cheng Liou, Zong-Sian Tsai, “Low Loss Mg4Nb2O9-SrTiO3 Microwave Dielectric Ceramics by Reaction-Sintering Process,” PACRIM 9, 10-14 July 2011, Cairns, Australia.
  204.Yi-Cheng Liou, Wen-Sian Chen, Shao-Huei Jhang, Wen-Ching Lin, “CaCu3Ti4O12 Dielectric Ceramics by Reaction-Sintering Process,” PACRIM 9, 10-14 July 2011, Cairns, Australia.
  205.Yi-Cheng Liou, Liang-Wei Lin, Wen-Chou Tsai, Zong-Sian Tsai, “Preparation of ZnWO4 Ceramics by Reaction-Sintering Process,” PACRIM 9, 10-14 July 2011, Cairns, Australia.
  206.Yi-Cheng Liou, Cheng-Long Yang, Wen-Chou Tsai, Zong-Sian Tsai, “Preparation of Ba3LaNb3O12 Ceramics by Reaction-Sintering Process,” PACRIM 9, 10-14 July 2011, Cairns, Australia.
  207.Yi-Cheng Liou, Wei-Lin Jiang, Wen-Chou Tsai, “Preparation of (BaSr)0.9Y0.1TiO3 Thermoelectric Ceramics by Reaction-Sintering Process,” PACRIM 9, 10-14 July 2011, Cairns, Australia.


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專題製作參加校外競賽成果:
  Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “PMN-PZN Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 海報論文, (11/21,22/2003).
  獲選海報論文佳作
研究所升學成果:

  史易哲:高應大電子所碩士班(就讀)、崑山科大電子所碩士班
  莊丞戎:崑山科大電子所碩士班(就讀)
  曾科豪:崑山科大電子所碩士班(就讀)
  施宗佑:崑山科大電子所碩士班(就讀)
  吳騏廷:交通大學材料所碩士班(就讀)、中興大學材料所碩士班(第二名)、高雄應用科技大學電子研究所碩士班(榜首)、崑山科技大學電子研究所碩士班(榜首)交通大學材料所博士班(榜首)、
      成功大學電機所博士班(榜首、就讀)
  楊松齡:虎尾科大光電與材料科技所碩士班、崑山科大電子所碩士班(就讀)、成功大學電機所博士班(就讀)、成功大學奈微所博士班
  鍾子欽:交通大學材料所碩士班(就讀)、崑山科大電子所碩士班
  劉冀陽:義守大學電子工程學系碩士班、崑山科大電子所碩士班(就讀) 、成功大學材料所博士班(就讀)
  許文豪:中興大學材料所碩士班(就讀)、中正大學光機電整合碩士班、逢甲大學電子工程學系碩士班、崑山科大電子所碩士班
  陳佑任:高雄應用科大電子工程所碩士班(就讀)、崑山科大電子所碩士班
  莊學文:成功大學材料所博士班(就讀)黃啟翔:逢甲大學電子所碩士班(就讀)、崑山科大電子所碩士班
  籃崇哲:中興大學材料所碩士班(就讀)、崑山科大電子所碩士班
  林明億:雲林科大學材料所碩士班(就讀)、高雄應用科大應用工程所碩士班、崑山科大電子所碩士班
  林文揚:高雄應用科大化材所碩士班(就讀)、崑山科大綠色材料所碩士班
  黃昱霖:崑山科大電子所碩士班
  李汪儒:崑山科大電子所碩士班
  李威廷:崑山科大電子所碩士班
  陳宏孟:中興大學材料所碩士班(榜首、就讀)、高雄大學化工與材料所碩士班、98年中國工程師學會優秀工程學生獎學金
  吳東璋:新竹教育大學應用科學所碩士班
  洪峻澤:逢甲大學電子所碩士班

國科會研究計畫:

劉依政老師
1. "高異向性壓電陶瓷元件之研製", 國科會, NSC 89-2216-E-168-002, 主持人, 88/08/01~89/07/31
2. "以反應燒結法研製含鉛複合型弛緩性鐵電陶瓷", 國科會, NSC 91-2216-E-168-006, 主持人, 91/08/01~92/07/31
3. "Pb(B1,B2)O3弛緩性鐵電陶瓷系列材料反應燒結法之研究", 國科會, NSC 92-2218-E-168-017, 主持人, 92/08/01~93/10/31
4. "以直接燒結法與機械化學法製造具高Q值及溫度穩定性良好之微波介電陶瓷BaTi4O9及Ba2Ti9O20", 國科會, NSC 94-2216-E-168-002, 主持人, 94/08/01~95/10/31
5. "溫度穩定性良好MgTiO3-CaTiO3及MgTiO3-SrTiO3微波介電陶瓷之無煆燒簡單製程", 國科會, NSC 95-2221-E-168-015, 主持人, 95/08/01~96/09/30
6. "特性優良新微波介電陶瓷(M0.5Ti0.5)NbO4 (M=Zn,Ni,Ca,Mg)之研究",國科會, NSC 97-2221-E-168-003,主持人, 97/08/01~98/07/31
7. “特性優良新微波介電陶瓷A4Nb2O9 (A=Mg, Co, Ni, Zn)之系列研究”,國科會, NSC 98-2221-E-168-017,主持人, 98/08/01~99/07/31


陳仁賢老師
1.”特性優良之微波介電新材料(A6-xA'x)(B5-xB'x)O18之無煆燒簡單製程,” 國科會, NSC 94-2216-E-168-002, 主持人, 94/08/01~95/07/31
A.期刊論文
1. Yi-Cheng Liou*, Chi-Ting Wu, Yuh-Lin Huang, Tzu-Chin Chung, “Effect of CuO on CaTiO3 perovskite ceramics prepared using a direct sintering process”, J. Nuclear Mater., 393(2), pp 492-496, September 2009. (SCI, Nuclear Science & Technology), Impact Factor=1.501, Rank=3/30, 2008.
2. Yi-Cheng Liou*, Dong-Zang Wu, Jia-Hao Siao, Wen-Chou Tsai “A simple and effective process for fabrication of Gd0.1Ce0.9O1.95 solid electrolyte ceramics,” Ceram. Int., 35(7), pp 2973-2977, September 2009. (SCI, Materials science, Ceramics), Impact Factor=1.369, Rank=6/24, 2008.
3. Yi-Cheng Liou*, Hong-Meng Chen, Wen-Chou Tsai, “Synthesis of Zn3Nb2O8 Ceramics Using a Simple and Effective Process,” Ceram. Int., 35(6), pp 2135–2138, August, 2009. (SCI, Materials science, Ceramics), Impact Factor=1.369, Rank=6/24, 2008.
4. Yi-Cheng Liou*, Wen-Chou Tsai, Hong-Meng Chen, “Low Temperature Synthesis of BiNbO4 Ceramics Using Reaction-Sintering Process,” Ceram. Int., 35(6), pp 2119–2122, August, 2009. (SCI, Materials science, Ceramics), Impact Factor=1.369, Rank=6/24, 2008.
5. Yi-Cheng Liou*, Ying-Tsun Chen, Wen-Chou Tsai, “Synthesis of temperature-stable microwave dielectric ceramics NiNb2O6 with TiO2 addition,” J. Alloys and Compounds, 477(1-2), pp 537-542, May, 2009. (SCI, Metallurgy & Metallurgical Engineering), Impact Factor=1.51, Rank=7/63, 2008.
6. Yi-Cheng Liou*, Chao-Yang Shiue, Min-Hang Weng, “Synthesis and Properties of TiO2 Added NiNb2O6 Microwave Dielectric Ceramics Using a Simple Process,” J. Eur. Ceram. Soc., 29(6), pp 1165-1171, April, 2009. (SCI, Materials science, Ceramics), Impact Factor=1.58, Rank=2/24, 2008.
7. Yi-Cheng Liou*, Uang-Ru Lee, “Non-calcining process for CuAlO2 and CuAl0.9Ca0.1O2 ceramics,” J. Alloys and Compounds, 467(1-2), pp 496–500, January, 2009. (SCI, Metallurgy & Metallurgical Engineering), Impact Factor=1.51, Rank=7/63, 2008.
8. Yi-Cheng Liou*, Chi-Yang Liu, Kuan-Zong Fung, “Synthesis and Properties of Ba2La3Ti3NbO15 Ceramics by a Reaction-Sintering Process,” Ceram. Int., 34(8), pp 2079-2083, December, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.360, Rank=4/25, 2007.
9. Yi-Cheng Liou, Song-Ling Yang, Chung-Che Lan, “Preparation of zinc- doped lanthanum strontium gallate solid electrolyte using a reaction-sintering process,” J. Aust. Ceram. Soc., 44(1) 34-38, 2008.
10. Yi-Cheng Liou*, Wen-Chou Tsai, Wen-Yang Lin, Uang-Ru Lee, “Synthesis of Ca3Co4O9 and CuAlO2 Ceramics of the Thermoelectric Application Using a Reaction-Sintering Process,” J. Aust. Ceram. Soc., 44(1) 17-22, 2008.
11. Yi-Cheng Liou*, Yi-Che Shih, Cheng-Jung Chuang, Ying-Tsun Chen, “Synthesis and Properties of (BaxPb1-x)(Zn1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics Using a Reaction-Sintering Process,” Ceram. Int., 34(6), pp 1413-1418, August, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.360, Rank=4/25, 2007.
12. Yi-Cheng Liou*, Song-Ling Yang, “A simple and effective process for Sr0.995Ce0.95Y0.05O3-δ and BaCe0.9Nd0.1O3-δ solid electrolyte ceramics,” J. Power Sources, 179(2), pp553-559, May, 2008. (SCI, Energy & Fuels), Impact Factor=2.809, Rank=5/64, 2007.
13. Yi-Cheng Liou* and Chi-Ting Wu, “Synthesis and Diffused Phase Transition of Ba0.7Sr0.3TiO3 Ceramics by a Reaction-Sintering Process,” Ceram. Int., 34(3), pp 517-522, April, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.360, Rank=4/25, 2007.
14. Yi-Cheng Liou*, Yueh-Lun Sung, “Preparation of Columbite MgNb2O6 and ZnNb2O6 Ceramics by Reaction-Sintering,” Ceram. Int., 34 (2), pp 371-377, March, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.360, Rank=4/25, 2007.
15. Yi-Cheng Liou*, Yow-Renn Chen, “Synthesis and Microstructure of (LaSr)MnO3 and (LaSr)FeO3 Ceamics by a Reaction-Sintering Process,” Ceram. Int., 34 (2), pp 273-278, March, 2008. (SCI, Materials science, Ceramics), Impact Factor=1.360, Rank=4/25, 2007.
16. Yi-Cheng Liou*, Pei-Hung Yeh, Ming-Jih Lin, “La0.9Sr0.1Ga0.57Mn0.43O3 Anode Ceramics of Solid Oxide Fuel Cells Produced Using Reaction-Sintering Process,” J. Aust. Cerm. Soc., 43[2], pp 147-149, 2007.
17. Yi-Cheng Liou*, Song-Ling Yang, “Calcium Doped MgTiO3-MgTi2O5 Ceramics Prepared using a Reaction-Sintering Process,” Mater. Sci. and Eng. B, 142 (2-3), pp 116-120, September, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.
18. Yi-Cheng Liou*, Ko-Hao Tseng and Tzu-Chin Chung, ”Effect of Dopants on BaTi4O9 and Ba2Ti9O20 Ceramics Prepared by Reaction-sintering Process,” J. Eur. Ceram. Soc., 27 (8-9), pp 3027-3032, 2007. (SCI, Materials science, Ceramics), Impact Factor=1.576, Rank=2/26, 2006. NSC94-2216-E-168-002
19. Yi-Cheng Liou*, Chung-Yu Shih and Wen-Hau Shiu, “(5-x)BaO-xMgO-2Nb2O5 Ceramics Prepared using a Reaction-Sintering Process,” Mater. Res. Bull., 42(6), pp 1104-1110, June, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.
20. Yi-Cheng Liou*, Chi-Ting Wu and Tzu-Chin Chung, “Synthesis and microstructure of SrTiO3 and BaTiO3 ceramics by a reaction-sintering process,” J. Mater. Sci., 42(10), pp 3580-3587, May, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=0.999, Rank=88/176, 2006.
21. Yi-Cheng Liou*, Yi-Chen Huang and Chi-Ting Wu, “Preparation and Phase formation of Perovskite Pb(Ni1/3Nb2/3)O3 by a Reaction-Sintering Process,” J. Mater. Sci., 42(8), pp 2612-2617, April, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=0.999, Rank=88/176, 2006. NSC92-2218-E-168-017
22. Yi-Cheng Liou* and Chi-Yang Liu, “A Simple and Effective Process for Ba3La2Ti2Nb2O15 Microwave Ceramics,” Mater. Sci. and Eng. A, 448, pp351-355, March, 2007. (SCI, Materials science, Multidisciplinary), Impact Factor=1.49, Rank=52/176, 2006.
23. Yi-Cheng Liou*, Min-Hang Weng and Chao-Yang Shiue, “CaNb2O6 Ceramics Prepared by a Reaction-Sintering Process,” Mater. Sci. and Eng. B, 133[1-3], pp14-19, August, 2006. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.
24. Yi-Cheng Liou*, Wen-Hau Shiu, Chung-Yu Shih, “Microwave Ceramics Ba5Nb4O15 and Sr5Nb4O15 Prepared by a Reaction-Sintering Process,” Mater. Sci. and Eng. B, 131[1-3], pp142-146, July, 2006. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.
25. Yi-Cheng Liou*, Jen-Hsien Chen, Yi-Chen Huang, Chi-Ting Wu and Yow-Renn Chen, “Synthesis of Pb(Ni1/3Nb2/3)0.72Ti0.28O3 perovskite ceramics by a reaction-sintering process,” J. Electroceram., 16(3), pp213-220, May, 2006. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC92-2218-E-168-017
26. Yi-Cheng Liou*, Min-Hang Weng, Jen-Hsien Chen and Hsueh-Yung Lu, “Synthesis of (Pb,Ca)(Fe0.5Nb0.5)1-xTixO3 ceramics by a reaction-sintering process,” Mater. Chem. & Phys., 97[1], pp143-150, May, 2006 (SCI, Materials science, Multidisciplinary), Impact Factor=1.657, Rank=45/176, 2006.
27. Yi-Cheng Liou*, Jen-Hsien Chen, Hong-Wen Wang, Chi-Yang Liu, “Synthesis of (BaxSr1-x)(Zn1/3Nb2/3)O3 Ceramics by Reaction-Sintering Process and Microstructure,” Mater. Res. Bull., 41[3], pp455-460, March, 2006. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.
28. Yi-Cheng Liou*, Chi-Ting Wu, Ko-Hao Tseng and Tzu-Chin Chung, “Synthesis of BaTi4O9 ceramics by reaction-sintering process,” Mater. Res. Bull., 40[9], pp1483-1489, September, 2005. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.
29. Yi-Cheng Liou*, C. J. Chuang and Y. C. Shih, “Low-firing PZN-PFN-PFW relaxor ferroelectric ceramics produced by a reaction-sintering process”, Mater. Chem. & Phys., 93[1], pp26-30, September, 2005. (SCI, Materials science, Multidisciplinary), Impact Factor=1.657, Rank=45/176, 2006. NSC91-2216-E-168-006
30. Yi-Cheng Liou*, Jen-Hsien Chen, and Chi-Ting Wu, “Barium Strontium Titanate Ceramics Prepared by a Reaction-Sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) 103-108.
31. Yi-Cheng Liou*, Jen-Hsien Chen and Hsueh-Yung Lu, “Preparation of (Pb,Ca)(Fe0.5Nb0.5)1-yTiyO3 Perovskite Ceramics by a Reaction-Sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) 109-114.
32. Yi-Cheng Liou* and Chao-Yang Shiue, “Preparation of NiNb2O6 Columbite Ceramics by a Reaction-Sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) 115-119.
33. Yi-Cheng Liou*, Yi-Chen Huang and Chi-Ting Wu, “Formation Mechanisms of Perovskite Pb(Ni1/3Nb2/3)O3 in Reaction-sintering Process,” Mater. Res. Soc. Symp. Proc. 848 (2005) 397-402.
34. Yi-Cheng Liou*, Y. C. Shih and C. J. Chuang, “PZN-PFW and PFN-PFW Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” J. Electroceram., 13, pp457-461, July, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC91-2216-E-168-006
35. Yi-Cheng Liou*, ”Pb((Mg0.7Zn0.3)1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” J. Electroceram., 13, pp453-456, July, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC91-2216 -E-168-006
36. Yi-Cheng Liou*, “PMN-PFN Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process”, J. Electroceram., 12, pp187-190, March, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.157, Rank=5/26, 2006. NSC91-2216-E-168-006
37. Yi-Cheng Liou*, “Effect of Strontium Content on Microstructure in (LaxSr1-x)FeO3 Ceramics”, Ceram. Int., 30(5), pp667-669, July, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.
38. Yi-Cheng Liou*, “Microstructure Development in (LaxSr1-x)MnO3 Ceramics,” Mater. Sci. and Eng. B, 108(3), pp.278-280, May, 2004. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.
39. Yi-Cheng Liou* and Chung-Yu Shih, “Effect of Heating Rate on Properties of Pb(Fe1/2Nb1/2)O3 Ceramics Produced by Simplified Wolframite Route,” Ceram. Int., 30(4), pp.567-569, May, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.
40. Yi-Cheng Liou*, “Effect of Heating Rate on Properties of Pb(Mg1/3Nb2/3)O3 Ceramics Produced by Reaction-Sintering process,” Mater. Lett., 58(6), pp.944-947, February, 2004. (SCI, Materials science, Multidisciplinary), Impact Factor=1.186, Rank=60/177, 2004.
41. Jen-Hsien Chen and Yi-Cheng Liou*, “0.9Pb(Mg1/3Nb2/3)O3-0.1PbTiO3 Relaxor Ferroelectric Ceramics Produced by a Simplified Columbite Route and a Reaction-Sintering Process,” Ceram. Int., 30(2), pp.157-162, February, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.
42. Yi-Cheng Liou* and Jen-Hsien Chen, “PMN Ceramics Produced by a Simplified Columbite Route,” Ceram. Int., 30(1), pp. 17-22, January, 2004. (SCI, Materials science, Ceramics), Impact Factor=1.128, Rank=6/26, 2006.
43. Yi-Cheng Liou*, “Stoichiometric Perovskite PMN-PT Ceramics Produced by Reaction-Sintering Process,” Mater. Sci. and Eng. B. 103(3) pp.281-284, October, 2003. (SCI, Materials science, Multidisciplinary), Impact Factor=1.331, Rank=62/176, 2006.
44. Yi-Cheng Liou*, Ko-Hao Tseng, “Stoichiometric Pb(Mg1/3Nb2/3)O3 perovskite ceramics produced by reaction-sintering process,” Mater. Res. Bull., 38 (8), pp.1351-1357, July, 2003. (SCI, Materials science, Multidisciplinary), Impact Factor=1.383, Rank=57/176, 2006.
45. Yi-Cheng Liou*, Chung-Yu Shih, and Chun-Hung Yu, “Stoichiometric Pb(Fe1/2Nb1/2)O3 perovskite ceramics produced by reaction-sintering process,” Mater. Lett., 57(13-14), pp.1977-1981, April, 2003. (SCI, Materials science, Multidisciplinary), Impact Factor=1.186, Rank=60/177, 2004.
46. Jen-Hsien Chen, Yi-Cheng Liou*, and Ko-Hao Tseng, ”Stoichiometric perovskite lead magnesium niobate ceramics produced by reaction-sintering process,” Jpn. J. Appl. Phys., 42[1A] pp.175-181, January, 2003. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003.
47. Yi-Cheng Liou* Chung-Yu Shih and Chun-Hung Yu, "Pb(Fe1/2Nb1/2)O3 perovskite ceramics produced by simplified wolframite route," Jpn. J. Appl. Phys., 41[6A], pp.3829-3831, June, 2002. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003.
48. Yi-Cheng Liou*, Long Wu, Jow-Lay Huang and Chun-Hung Yu, “Anisotropy in Piezoelectric Properties of Calcium-Modified Lead Titanate Ceramics”, Jpn. J. Appl. Phys., 41[3A], pp.1477-1481, March, 2002. (SCI, Physics, Applied), Impact Factor=1.28, Rank=27/71, 2003. NSC89-2216-E-168-002
B.研討會論文
1. Yi-Cheng Liou, “PMN Ceramics Produced by Simplified Columbite Route” 2001年材料年會, 中興大學, 海報論文P03-33, (11/23,24/2001).
2. Yi-Cheng Liou, “0.9PMN-0.1PT Ceramics Produced by Simplified Columbite Route” 2001年材料年會, 中興大學, 海報論文P03-27, (11/23,24/2001).
3. Yi-Cheng Liou, Chung-Yu Shih, and Chun-Hung Yu, “Pb(Fe1/2Nb1/2)O3 ceramics produced by simplified wolframite route,” 2001年材料年會, 中興大學, 海報論文P03-26, (11/23,24/2001).
4. Yi-Cheng Liou, Chung-Yu Shih, and Chun-Hung Yu, “Pb(Fe1/2Nb1/2)O3 ceramics produced by reaction-sintering process,” 2001年材料年會, 中興大學, 海報論文P03-102, (11/23,24/2001).
5. Yi-Cheng Liou, Ko-Hao Tseng, and Chun-Hung Yu, “Pb(Mg1/3Nb2/3)O3 ceramics produced by reaction-sintering process,” 2001年材料年會, 中興大學, 海報論文P03-09, (11/23,24/2001).
6. Yi-Cheng Liou, Ko-Hao Tseng, and Chun-Hung Yu, “Stoichiometric PMN-PT Ceramics Produced by Reaction-Sintering Process,” 2001年材料年會,中興大學, 海報論文P03-17, (11/23,24/2001).
7. Y. C. Liou, T. H. Shieh and Y. C. Shih, ”Pb((Mg0.7Zn0.3)1/3Nb2/3)O3 Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics; ICE-2003, 3-7 August 2003, Massachusetts Institute of Technology, Cambridge, MA USA.
8. Y. C. Liou, Y. C. Shih and C. J. Chuang, “PZN-PFW and PFN-PFW Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics; ICE-2003, 3-7 August 2003, Massachusetts Institute of Technology, Cambridge, MA USA.
9. Y. C. Liou, J. H. Chen and C. J. Chuang, “PZN-PFN-PFW Relaxor Ferroelectric Ceramics with Low Sintering Temperature by a Reaction-Sintering Process,” International Conference on Electroceramics; ICE-2003, 3-7 August 2003, Massachusetts Institute of Technology, Cambridge, MA USA.
10. Yi-Cheng Liou, Jen-Hsien Chen and Tung-Ho Shieh, “Microstructure in (LaxSr1-x)CoO3 Ceramics,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
11. Yi-Cheng Liou, “Effect of Strontium Content on Microstructure in (LaxSr1-x)FeO3 Ceramics,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
12. Yi-Cheng Liou and Jen-Hsien Chen, “Microstructure in (LaxSr1-x)MnO3 Ceramics,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
13. Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “Lead Zinc Niobate Based Ceramics Prepared by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
14. Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “PMN-PZN Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
15. Yi-Cheng Liou and Yi-Che Shih, “Microstructure in PZN-PFW Ceramics Prepared by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
16. Yi-Cheng Liou, Tung-Ho Shieh and Cheng-Jung Chuang, “PFN-PFW Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
17. Yi-Cheng Liou, Tung-Ho Shieh and Cheng-Jung Chuang, “PMN-PFN Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
18. Yi-Cheng Liou, Jen-Hsien Chen and Cheng-Jung Chuang, “PZN-PFN-PFW Perovskite Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
19. Yi-Cheng Liou and Yi-Chen Huang, “Pb(Ni1/3Nb2/3)O3 perovskite ceramics produced by a reaction-sintering process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
20. Yi-Cheng Liou and Yi-Chen Huang, “Preparation of Pb(Ni1/3Nb2/3)O3-PbTiO3 perovskite ceramics by a reaction-sintering process,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
21. Yi-Cheng Liou, “Effect of Heating Rate on Properties of Pb(Fe1/2Nb1/2)O3 Ceramics Produced by Simplified Wolframite Route,” 2003年材料年會, 崑山科技大學, 海報論文, (11/21,22/2003).
22. Yi-Cheng Liou, “Effect of Heating Rate on Properties of Pb(Mg1/3Nb2/3)O3 Ceramics Produced by Reaction-Sintering Process,” 2003年材料年會,崑山科技大學, 海報論文, (11/21,22/2003).
23. 呂學勇,陳仁賢, 劉依政, “以反應燒結法製備(Pb0.45Ca0.55)(Fe0.5Nb0.5)O3微波陶瓷,”2004年材料年會, 新竹市, 海報論文PB4-03, (11/17,18/2004).
24. Kuo-Shiang Chang, Tung-Ho Shieh , Yi-Cheng Liou, “Preparation of Lead Zinc Niobate Based Ceramics by a Simplified Columbite Route,” 2004年材料年會, 新竹市, 海報論文PB4-10, (11/17,18/2004).
25. 王志豪,劉依政, “以簡化wolframite法製備PZN-PFN-PFW弛緩性鐵電陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-11, (11/17,18/2004).
26. Yu-Cheng Chang, Tung-Ho Shieh , Yi-Cheng Liou, “Pb(Ni1/3Nb2/3)O3-PbTiO3 Perovskite Ceramics Prepared by a Simplified Columbite Route,” 2004年材料年會, 新竹市,海報論文PB4-12, (11/17,18/2004).
27. 薛朝陽,劉依政, “Columbite NiNb2O6 微波陶瓷之直接燒結製程,” 2004年材料年會, 新竹市, 海報論文PB4-13, (11/17,18/2004).
28. Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Barium Strontium Ttitanate Ceramics Prepared by a Reaction-Sintering Process,” 2004年材料年會, 新竹市, 海報論文PB4-14, (11/17,18/2004).
29. Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Synthesis and Microstructure of SrTiO3 and BaTiO3 Ceramics by Reaction-Sintering Process,” 2004年材料年會, 新竹市, 海報論文PB4-15, (11/17,18/2004).
30. 王宏文,陳仁賢,劉依政, “以反應燒結法製備Ba(Zn1/3Nb2/3)O3與Sr(Zn1/3Nb2/3)O3微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-16, (11/17,18/2004).
31. Ruei-Shiang Shieh, Tung-Ho Shieh , Yi-Cheng Liou, “0.75PFW-0.25PT Perovskite Ceramics Preparation of by a Simplified Columbite Route,” 2004年材料年會, 新竹市, 海報論文PB4-17, (11/17,18/2004).
32. Ruei-Shiang Shieh, Tung-Ho Shieh , Yi-Cheng Liou, “0.75PFW-0.25PT Perovskite Ceramics Produced by the Reaction-Sintering Process,” 2004年材料年會, 新竹市, 海報論文PB4-18, (11/17,18/2004).
33. 宋月倫,陳仁賢,劉依政, “以反應燒結法製備Columbite ZnNb2O6微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-19, (11/17,18/2004).
34. 宋月倫,陳仁賢,劉依政, “以反應燒結法製備Columbite MgNb2O6微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-20, (11/17,18/2004).
35. 王志豪,劉依政, “以簡化wolframite法製備PFN-PFW弛緩性鐵電陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-47, (11/17,18/2004).
36. 薛朝陽,陳仁賢,劉依政, “Columbite CaNb2O6 微波陶瓷之直接燒結製程,” 2004年材料年會, 新竹市, 海報論文PB4-55, (11/17,18/2004).
37. 王宏文,陳仁賢,劉依政, “以反應燒結法製備(BaxSr1-x)(Zn1/3Nb2/3)O3微波陶瓷,” 2004年材料年會, 新竹市, 海報論文PB4-68, (11/17,18/2004).
38. 呂學勇, 劉依政, “以反應燒結法製備(Pb0.45Ca0.55)[(Fe0.5Nb0.5)0.9Ti0.1]O3微波陶瓷,”2004年材料年會, 新竹市, 海報論文PB4-70, (11/17,18/2004).
39. Yi-Cheng Liou, Yi-Chen Huang and Chi-Ting Wu “Formation mechanisms of perovskite Pb(Ni1/3Nb2/3)O3 in reaction-sintering process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
40. Yi-Cheng Liou, Jen-Hsien Chen and Hsueh-Yung Lu, “Preparation of (Pb,Ca)(Fe0.5Nb0.5)1-yTiyO3 Perovskite Ceramics by a Reaction-Sintering Process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
41. Yi-Cheng Liou and Chao-Yang Shiue, “Preparation of NiNb2O6 Columbite Ceramics by a Reaction-Sintering Process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
42. Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Barium Strontium Titanate Ceramics Prepared by a Reaction-Sintering Process,” 2004 MRS FALL MEETING, Boston, MA, November 29-December 3, 2004.
43. 薛朝陽,劉依政, “Columbite MNb2O6(M=Ni,Ca)微波陶瓷之直接燒結製程,” 2004ASTC, 高雄應用科大,海報論文PM07, (12/9,10/2004).
44. 王宏文,劉依政, “以反應燒結法製備添加微量CuO之(BaxSr1-x)(Zn1/3Nb2/3)O3微波陶瓷,” 2004ASTC, 高雄應用科大, 海報論文PM14, (12/9,10/2004).
45. 宋月倫,劉依政, “以反應燒結法製備Columbite ZnNb2O6與MgNb2O6微波介電陶瓷,” 2004ASTC, 高雄應用科大, 海報論文PM15, (12/9,10/2004).
46. 王志豪,劉依政, “以簡化wolframite法製備PZN-PFN-PFW與PFN-PFW弛緩性鐵電陶瓷,” 2004ASTC, 高雄應用科大, 海報論文PM20, (12/9,10/2004).
47. 吳騏廷,劉依政, ”以反應燒結製程製備鈦酸鋇鍶(BST)陶瓷,” 2004ASTC, 高雄應用科大, 海報論文QM07, (12/9,10/2004).
48. 呂學勇, 劉依政, “(Pb,Ca)(Fe,Nb)O3與(Pb,Ca)[(Fe,Nb)Ti]O3微波介電陶瓷反應燒結法製程,” 2004ASTC, 高雄應用科大, 海報論文QM08, (12/9,10/2004).
49. Yi-Cheng Liou, Jen-Hsien Chen and Yueh-Lun Sung, ”Preparation of MgNb2O6 and ZnNb2O6 Columbite Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
50. Yi-Cheng Liou and Hong-Wen Wang, ”(BaxSr1-x)(Zn1/3Nb2/3)O3 Ceramics Prepared by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
51. Yi-Cheng Liou and Chi-How Wang, ”Preparation of PFN-PFW and PZN-PFN-PFW Relaxor Ferroelectric Ceramics by a Simplified Wolframite Route,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
52. Yi-Cheng Liou, Jen-Hsien. Chen, Chi-Ting Wu, “Preparation of BaTiO3 and SrTiO3 Perovskite Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
53. Yi-Cheng Liou and Chi-Ting Wu, ”BaTi4O9 Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
54. Yi-Cheng Liou, Jen-Hsien Chen and Yi-Che Shih, “Preparation of Ba-Modified PZN Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” 29th INTERNATIONAL Conference on Advanced Ceramics and Composites, Cocoa Beach, FL, USA, January 23-28, 2005.
55. 劉冀陽,王宏文,陳仁賢,劉依政,”添加CuO對Ba(Zn1/3Nb2/3)O3與Sr(Zn1/3Nb2/3)O3陶瓷微結構之影響,”中華民國陶業研究學會九十四年年會,台南市,D010, 5/25/2005.
56. 吳騏廷,劉依政, 陳仁賢,“添加CuO對反應燒結製程製備CaTiO3陶瓷之影響,”中華民國陶業研究學會九十四年年會, 台南市,D007, 5/25/2005.
57. 鍾子欽,曾科豪,吳騏廷, 劉依政,“以反應燒結製程製備Ba2Ti9O20微波介電陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B016, 5/25/2005.
58. 莊丞戎, 楊松齡, 劉依政,“以反應燒結法製備(Zr0.8Sn0.2)TiO4微波陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B013, 5/25/2005.
59. 陳佑任, 劉依政,“Pb(Mg1/3Nb2/3)O3之直接燒結氧化物製程,”中華民國陶業研究學會九十四年年會, 台南市,B011, 5/25/2005.
60. 許文豪,施宗佑,陳仁賢,劉依政,”以反應燒結法製備Ba5Nb4O15微波介電陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B009-2, 5/25/2005.
61. 許文豪,施宗佑,陳仁賢,劉依政,”以反應燒結法製備Sr5Nb4O15微波介電陶瓷,”中華民國陶業研究學會九十四年年會, 台南市,B009-1, 5/25/2005.
62. 鍾子欽, 劉依政,曾科豪,吳騏廷, “BaTi4O9微波介電陶瓷反應燒結法製程,” 第十二屆三軍官校基礎學術研討會, 岡山,C2-1,p.p.C57-C61 (6/3/2005).
63. Yi-Cheng Liou, Tzu-Chin Chung, Ko-Hao Tseng, Chi-Ting Wu, “Synthesis of Ba2Ti9O20 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
64. Yi-Cheng Liou, Chi-Yang Liu, Hong-Wen Wang, ”Synthesis of Ba(Zn1/3Nb2/3)O3 and Sr(Zn1/3Nb2/3)O3 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
65. Yi-Cheng Liou, Jen-Hsien Chen, Yow-Renn Chen, ”(LaxSr1-x)FeO3 Ceramics Prepared by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
66. Yi-Cheng Liou, Yow-Renn Chen, Kuan-Ting Liu, ”Synthesis of Pb(Mg1/3Nb2/3)O3 and Pb(Fe1/2Nb1/2)O3 Relaxor Ferroelectric Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
67. Yi-Cheng Liou, Jen-Hsien Chen, Wen-Hau Shiu, Chung-Yu Shih, ”Ba5Nb4O15 and Sr5Nb4O15 Ceramics Prepared by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
68. Yi-Cheng Liou, Jen-Hsien Chen, Chao-Yang Shiue and Song-Ling Yang, ”Preparation of CaNb2O6 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
69. Yi-Cheng Liou, Jen-Hsien Chen, Song-Ling Yang, Cheng-Jung Chuang, ”MgTiO3-CaTiO3 Ceramics Prepared by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
70. Yi-Cheng Liou, Cheng-Jung Chuang, Song-Ling Yang, ”Synthesis of (Zr Sn)TiO4 Ceramics by a Reaction-Sintering Process,” International Conference on Electroceramics 2005, 12-16 June 2005, KIST, Seoul, Korea.
71. 楊松齡,陳仁賢,劉依政,莊丞戎,”以反應燒結法製備MgTiO3微波陶瓷,” 2005年材料年會,淡江大學, 海報論文, (11/25,26/2005).
72. 楊松齡,陳仁賢,劉依政,莊丞戎,”MgO-CaO-TiO2微波介電陶瓷反應燒結法製程,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
73. 楊松齡,陳仁賢,劉依政,莊丞戎,” 以反應燒結法製備MgO-SrO-TiO2微波介電陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
74. 薛朝陽,楊松齡,翁敏航,劉依政,”CuO對反應燒結法製備CaNb2O6微波介電陶瓷之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
75. 薛朝陽,楊松齡,翁敏航,劉依政,” CuO對反應燒結法製備NiNb2O6微波介電陶瓷之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
76. 薛朝陽,楊松齡,陳仁賢,劉依政, ”以反應燒結法製備MNb2O6(M=Ni,Ca)生成相之探討,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
77. 薛朝陽,楊松齡,翁敏航,陳仁賢,劉依政,”(1-x)NiNb2O6-xTiO2陶瓷之微波介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
78. 莊丞戎,陳仁賢,劉依政,楊松齡,”不同添加物對反應燒結法製備(Zr0.8Sn0.2)TiO4微波陶瓷特性之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
79. 鍾子欽, 曾科豪, 劉依政,”添加CuO對反應燒結製程製備BaTiO3之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
80. 鍾子欽,曾科豪,陳仁賢,劉依政,”以無煆燒製程製造Ba0.8Sr0.2TiO3正溫度係數電阻陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
81. 曾科豪,鍾子欽,翁敏航,吳騏廷,劉依政,”反應燒結法製備BaTi4O9陶瓷之微波介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
82. 曾科豪,鍾子欽,劉依政,”低溫燒結BaTi4O9陶瓷介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
83. 曾科豪,鍾子欽,翁敏航,吳騏廷,劉依政,”反應燒結法製備Ba2Ti9O20陶之瓷微波介電特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
84. 曾科豪,鍾子欽,劉依政,”添加物對Ba2Ti9O20微波介電陶瓷之影響,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
85. 劉冀陽,陳仁賢,劉依政,”以反應燒結法製造Ba2La3Ti3NbO15微波介電陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
86. 劉冀陽,陳仁賢,劉依政,”以反應燒結法製備Ba3La2Ti2Nb2O15微波介電陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
87. 劉冀陽,王宏文,翁敏航,劉依政,”反應燒結法製備之(BaxSr1-x)(Zn1/3Nb2/3)O3陶瓷微波特性,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
88. 劉冀陽,王宏文,翁敏航,劉依政,”反應燒結法製備之Sr(Zn1/3Nb2/3)O3陶瓷微波特性,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
89. 宋月倫,劉冀陽,翁敏航,劉依政,”反應燒結法製備之ZnNb2O6陶瓷微波特性,”2005年材料年會, 淡江大學, 淡江大學, 海報論文, (11/25,26/2005).
90. 宋月倫,劉冀陽,劉依政,”反應燒結法製備ZnNb2O6之生成相探討,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
91. 許文豪,施宗佑,陳仁賢,劉依政,”添加CuO對反應燒結製程製備Ba5Nb4O15陶瓷之影響,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
92. 許文豪,施宗佑,陳仁賢,劉依政,”添加CuO對反應燒結法製備Sr5Nb4O15陶瓷之影響,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
93. 施宗佑,許文豪,劉依政,”以反應燒結法製備(Ba5-xMgx)Nb4O15之微波介電陶瓷,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
94. 施宗佑,許文豪,劉依政,”以反應燒結法製備SrO-MgO-Nb2O5之微波介電陶瓷,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
95. 陳佑任, 劉依政,“以反應燒結法製備(LaxSr1-x)FeO3陶瓷,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
96. 陳佑任, 劉依政,“(LaxSr1-x)MnO3陶瓷之反應燒結製程,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
97. 呂學勇,陳佑任, 劉依政,“反應燒結法製備(Pb0.45Ca0.55)(Fe0.5Nb0.5)O3與(Pb0.45Ca0.55)[(Fe0.5Nb0.5)0.9Ti0.1]O3反應生成相之探討,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
98. 呂學勇,陳佑任,翁敏航,劉依政,“反應燒結法製備之(Pb0.45Ca0.55)(Fe0.5Nb0.5 )O3與(Pb0.45Ca0.55)[(Fe0.5Nb0.5 )0.9Ti0.1]O3陶瓷微波介電特性,”2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
99. 蘇清輝,陳仁賢,劉依政,”以反應燒結法製備Ba3La3Ti4NbO18微波陶瓷,” 2005年材料年會, 淡江大學, 海報論文, (11/25,26/2005).
100. Yi-Cheng Liou, Ko-Hao Tseng and Tzu-Chin Chung, ”Effect of Dopants on BaTi4O9 and Ba2Ti9O20 Ceramics Prepared by Reaction-sintering Process,” MMA 2006 - Microwave Materials and Their Applications, 12–15 June 2006, Oulu, Finland.
101. Yi-Cheng Liou, Jen-Hsien Chen, Chung-Yu Shih, Wen-Hau Shiu, “Synthesis of (5-x)SrO-xMgO-2Nb2O5 Ceramics by a Reaction-Sintering Process,” ELECTROCERAMICS X, Toledo (Spain) 18-22 June, 2006.
102. 莊學文,劉依政,宋月倫,陳盈圳, ”CuO與B2O3對反應燒結法製備ZnNb2O6微波介電陶瓷特性之影響,” 2006年電子通訊與應用研討會, 海報論文, AP015, 高雄應用科技大學(7/6/2006).
103. 蘇清輝,劉依政,陳仁賢, ”以反應燒結法製備Ba2La4Ti5O18微波陶瓷,” 2006年電子通訊與應用研討會, 海報論文, AP016, 高雄應用科技大學(7/6/2006).
104. 曾科豪,鍾子欽,吳騏廷,劉依政,”BaTi4O9與Ba2Ti9O20微波陶瓷之生成相探討,”2006年材料年會,成功大學, 海報論文, (11/24,25/2006).
105. 曾科豪,鍾子欽,吳騏廷,劉依政,“低溫燒結BaTi4O9之微波介電特性,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
106. 曾科豪,鍾子欽,吳騏廷,劉依政,“添加物對Ba2Ti9O20陶瓷微波特性之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
107. 陳佑任,劉依政,黃昱霖,“以反應燒結法製備(LaxSr1-x)CoO3陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
108. 楊松齡,劉依政,籃崇哲,“以反應燒結法製備SOFC電解質SrCeO3-δ及BaCeO3-δ陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
109. 楊松齡,劉依政,蔡文周,莊丞戎, “以反應燒結法製備MgTiO3-CaTiO3微波介電陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
110. 楊松齡,劉依政,蔡文周,莊丞戎, “MgTiO3-SrTiO3微波陶瓷之直接燒結製程,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
111. 楊松齡,劉依政,莊丞戎, “MgTiO3微波介電陶瓷之直接燒結製程,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
112. 莊學文,陳盈圳,劉依政, “添加B2O3對反應燒結法製備ZnNb2O6微波介電特性影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
113. 莊丞戎,劉依政,楊松齡, “添加La2O3與ZnO對反應燒結法製備(Zr0.8Sn0.2)TiO4微波介電陶瓷之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
114. 黃昱霖,劉依政, “以反應燒結法製備固態燃料電池陰極陶瓷(La0.8Sr0.2)FeO3,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
115. 施宗佑,許文豪,劉依政,陳坤能,“BaO-MgO-Nb2O5陶瓷生成相之探討,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
116. 施宗佑,許文豪,劉依政,陳坤能,“反應燒結法製備之BaO-MgO-Nb2O5陶瓷之微波介電特性,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
117. 施宗佑,許文豪,劉依政,“SrO-MgO-Nb2O5陶瓷生成相之探討,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
118. 施宗佑,許文豪,劉依政,“反應燒結法製備之SrO-MgO-Nb2O5陶瓷微波介電特性,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
119. 籃崇哲,劉依政,楊松齡,葉倍宏, “以反應燒結法製備應用於SOFC電解質之La0.8¬Sr0.2Ga0.8Zn0.2O2.8陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
120. 黃啟翔,劉依政,蔡文周,葉倍宏, “以反應燒結法製備應用於固態燃料電池連接層之La0.8Sr0.2CrO3陶瓷體,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
121. 劉冀陽,劉依政,林文揚,“添加CuO對反應燒結製程製備Ba2La3Ti3NbO15陶瓷之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
122. 蘇清輝,陳仁賢,劉依政,“B2O3對反應燒結法製備Ba3La3Ti4NbO18微波介電陶瓷特性之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
123. 蘇清輝,陳仁賢,劉依政,“CuO對反應燒結法製備Ba3La3Ti4NbO18微波介電陶瓷特性之影響,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
124. 陳盈圳,劉依政,“以反應燒結法製備Zn0.5Ti0.5NbO4微波介電陶瓷,”2006年材料年會, 成功大學, 海報論文, (11/24,25/2006).
125. 黃啟翔,劉依政,蔡文周, “以反應燒結法製備應用於固態氧化物燃料電池連接層之La0.7Ca0.31CrO3陶瓷體,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
126. 籃崇哲,楊松齡,劉依政, “以反應燒結法製備應用於固態氧化物燃料電池電解質之La0.8Sr0.2Ga0.83Mg0.17O2.815陶瓷體,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
127. 黃昱霖,劉依政, “固態氧化物燃料電池陰極陶瓷(La0.8Sr0.2)FeO3之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
128. 林文揚,劉依政, “熱電陶瓷Ca3Co4O9之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
129. 李汪儒,劉依政, “熱電陶瓷CuAlO2之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
130. 林明億,葉倍宏,劉依政, “以反應燒結法製備應用於固態氧化物燃料電池陽極之La0.8Sr0.2Cr0.8Mn0.2O3陶瓷,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
131. 林明億,葉倍宏,劉依政, “應用於固態氧化物燃料電池陽極 La0.9Sr0.1Ga0.57Mn0.43O3陶瓷之反應燒結法研究,” 2007年再生能源科技與應用研討會, 大葉大學, 彰化, (3/30/2007)
132. Yi-Cheng Liou, Song-Ling Yang, “Synthesis of barium cerate and strontium cerate solid electrolyte by a reaction-sintering process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
133. Yi-Cheng Liou, Song-Ling Yang, Chung-Che Lan, “Preparation of zinc-doped lanthanum strontium gallate solid electrolyte using a reaction-sintering process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
134. Yi-Cheng Liou, Yuh-Lin Huang, “La0.8Sr0.2FeO3 Cathode Ceramics of Solid Oxide Fuel Cells Prepared Using Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
135. Yi-Cheng Liou, Wen-Chou Tsai, Chii-Shyang Huang, “Reaction-sintering process for calcium-doped lanthanum chromite interconnect ceramics of solid oxide fuel cells,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
136. Yi-Cheng Liou, Pei-Hung Yeh, Ming-Jih Lin, “La0.9Sr0.1Ga0.57Mn0.43O3 Anode Ceramics of Solid Oxide Fuel Cells Produced Using Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
137. Yi-Cheng Liou, Wei-Ting Li, “Synthesis of 3BaO-2MgO-2Nb2O5 Microwave Dielectric Ceramics by a Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
138. Yi-Cheng Liou, Wen-Yang Lin, Uang-Ru Lee, “Synthesis of Ca3Co4O9 and CuAlO2 Ceramics for Thermoelectric Application Using a Reaction-Sintering Process,” Materials and Austceram 2007, Sydney July 4 - 6, 2007.
139. Yi-Cheng Liou, Wen-Chou Tsai, Song-Ling Yang, “Synthesis of 0.95MgTiO3-0.05CaTiO3 Ceramics by Reaction-Sintering,” 16th International Conference on composite materials, Kyoto, July 8-13, 2007.
140. Pei-Hung Yeh, Yi-Cheng Liou, Ming-Jih Lin, “Preparation of La0.8Sr0.2Cr0.8Mn0.2O3 Anode Ceramics of Solid Oxide Fuel Cells Using a Reaction-Sintering Process,” ACTSEA-2007, Howard Beach Resort Kenting, Henhchun Town, Pingtung, Taiwan, Nov. 4-7, 2007.
141. 林明億,葉倍宏,劉依政,”CuO添加對SOFC陽極La0.9Sr0.1Ga0.57Mn0.43O3陶瓷之影響,”2007綠色能源研討會, 清雲科技大學, (11/9/2007).
142. 黃啟翔,劉依政,蔡文周,”B2O3對固態氧化物燃料電池連接層La0.8Sr0.2CrO3陶瓷特性之影響,”2007綠色能源研討會, 清雲科技大學, (11/9/2007).
143. 林文揚,劉依政,”熱電陶瓷Zn0.99Al0.01O之反應燒結法研究,” 2007年材料年會, 交通大學, 海報論文P01-094, (11/15,16/2007).
144. 李汪儒,劉依政,”熱電陶瓷CuAl0.9Ca0.1O2之反應燒結法研究,” 2007年材料年會, 交通大學, 海報論文P01-095, (11/15,16/2007).
145. 籃崇哲,劉依政,楊松齡,”製備應用於SOFC電解質之La0.8¬Sr0.2Ga0.8Zn0.2O2.8陶瓷低溫燒結之研究,” 2007年材料年會, 交通大學, 海報論文P01-097, (11/15,16/2007).
146. 黃昱霖,劉依政,”固態氧化物燃料電池陰極陶瓷La0.85Sr0.15MnO3直接燒結製程之研究,” 2007年材料年會, 交通大學, 海報論文P01-098, (11/15,16/2007).
147. 黃啟翔,劉依政,蔡文周,”添加B2O3對反應燒結法製備固態氧化物燃料電池連接層La0.7Ca0.31CrO3陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P01-099, (11/15,16/2007).
148. 楊松齡,籃崇哲,劉依政,”添加CuO對反應燒結法製備SOFC電解質SrCeO3-δ陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P01-100, (11/15,16/2007).
149. 林明億,葉倍宏,劉依政,”添加CuO對反應燒結法製備SOFC陽極La0.8Sr0.2Cr0.8Mn0.2O3陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P01-101, (11/15,16/2007).
150. 劉冀陽,劉依政,林文揚,”添加B2O3對反應燒結製程製備Ba2La3Ti3NbO15陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P03-091, (11/15,16/2007).
151. 劉冀陽,劉依政,林文揚,”添加CuO對直接燒結製程製備Ba3La2Ti2Nb2O15陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P03-092, (11/15,16/2007).
152. 蘇清輝,劉冀陽,劉依政,方冠榮,”添加CuO與B2O3對反應燒結製程製備Ba3La3Ti4NbO18陶瓷微波介電特性的影響,” 2007年材料年會, 交通大學, 海報論文P03-094, (11/15,16/2007).
153. 陳盈圳,劉依政,方冠榮,”反應燒結法製備Ni0.5Ti0.5NbO4微波介電陶瓷,” 2007年材料年會, 交通大學, 海報論文P03-096, (11/15,16/2007).
154. 李威廷,劉依政,”以反應燒結法製備3BaO-2MgO-2Nb2O5微波介電陶瓷體,” 2007年材料年會, 交通大學, 海報論文P03-097, (11/15,16/2007).
155. 陳盈圳,劉依政,方冠榮,”以反應燒結法製備(1-x)ZnNb2O6-xTiO2微波介電陶瓷,” 2007年材料年會, 交通大學, 海報論文P03-098, (11/15,16/2007).
156. 莊學文,劉依政,陳盈圳,”添加B2O3對反應燒結法製備MgNb2O6微波介電陶瓷特性影響,” 2007年材料年會, 交通大學, 海報論文P03-099, (11/15,16/2007).
157. 莊丞戎,劉依政,楊松齡,”不同添加物對反應燒結法製備(Zr0.8Sn0.2)TiO4微波介電陶瓷之影響,” 2007年材料年會, 交通大學, 海報論文P03-100, (11/15,16/2007).
158. Yi-Cheng Liou, Min-Hang Weng and Chao-Yang Shiue, “Synthesis and Properties of NiNb2O6 Ceramics Using a Reaction-Sintering Process,” International Symposium on Industrial Electronics, Mechatronics and Applications 2007, 16-17 November 2007, Cheng-Shiu University, Kaohsiung, Taiwan.
159. Yi-Cheng Liou, Song-Ling Yang, “Synthesis of MgTiO3 and 0.97MgTiO3-0.03SrTiO3 Ceramics Using Various Magnesium Sources by a Reaction-Sintering Process,” International Symposium on Industrial Electronics, Mechatronics and Applications 2007, 16-17 November 2007, Cheng-Shiu University, Kaohsiung, Taiwan.
160. Yi-Cheng Liou, Chii-Shyang Huang, “Low-temperature sintering of La0.8Sr0.2CrO3 Interconnect Ceramics for Solid Oxide Fuel Cells using a reaction-sintering process,” International Symposium on Industrial Electronics, Mechatronics and Applications 2007, 16-17 November 2007, Cheng-Shiu University, Kaohsiung, Taiwan.
161. 林文揚,洪峻澤,劉依政,”Zn0.98Al0.02O熱電陶瓷以反應燒結法製備,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
162. 洪峻澤,劉依政,蔡文周, ”以反應燒結法製備Zn0.99Ti0.01O熱電陶瓷,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
163. Yi-Cheng Liou, Song-Ling Yang, ”Effects of MgO and Mg(OH)2 on MgTiO3-based microwave dielectric ceramics via a non-calcining process,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
164. Yi-Cheng Liou, Chi Yang Liu, ”Synthesis and properties of Ba4La(Sn0.75Ti0.25)Nb3O15 ceramics by a reaction-sintering process,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
165. 王盈智,劉依政,蔡文周, ”以反應燒結製備CaO-Nb2O5-TiO2微波介電陶瓷,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
166. 陳宏孟,劉依政,蔡文周, ”以反應燒結法製備Zn3Nb2O8微波介電陶瓷,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
167. 李威廷,劉依政,蔡文周, ”以反應燒結製程製備ZnO-TiO2微波介電陶瓷及MgO添加之研究,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
168. 陳宏孟,劉依政,翁敏航, ”微波介電陶瓷BiNbO4無煆燒製程之研究,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
169. 黃昱霖,劉依政, ”CuO對固態氧化物燃料電池陰極陶瓷(La0.85Sr0.15)MnO3之特性影響,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
170. 吳東璋,劉依政, 蔡文周, ”以反應燒結法製備固態氧化物燃料電池電解質Gd0.1Ce0.9O1.95,” 2008年材料年會, 台北科技大學, 海報論文, (11/21,22/2008).
171. 蔡宗憲,劉依政,蔡文周, “以直接燒結法製備Mg4Nb2O9微波介電陶瓷,”2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
172. 蔡泓州,劉依政,蔡文周, “以無煆燒製程技術製備CuAl0.9Fe0.1O2熱電陶瓷,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
173. 蕭嘉豪,劉依政,蔡文周, “以反應燒結法製備固態氧化物燃料電池電解質Gd0.2Ce0.8O1.9,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
174. 王宗安,蔡文周,劉依政, “添加微量CeO2之BiNbO4微波介電陶瓷無煆燒製程之研究,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
175. 蘇世漳,蔡文周,劉依政, “以反應燒結法製備0.75MgAl2O4-0.25TiO2微波介電陶瓷,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
176. 杜宗憲,蔡文周,劉依政, “固態氧化物燃料電池陽極陶瓷Sr0.88Y0.08TiO3反應燒結製程之研究,” 2009電子工程技術研討會, 義守大學, 海報論文, (6/19/2009).
177. Yi-Cheng Liou, Zong-Sian Tsai, Wei-Ting Li, Ying-Jhih Wang, “A Simple and Effective Process for Fabrication of Mg4Nb2O9 Ceramics,” ICMAT 2009, 28 June-3 July 2009, Singapore.
178. Yi-Cheng Liou, Hong-Chou Tsai, Wen-Chou Tsai, Uang-Ru Lee, “Synthesis of Cu(Al,Fe)O2 Thermoelectric Ceramics by a Reaction–Sintering Process,” ICMAT 2009, 28 June-3 July 2009, Singapore.
12、專利
1. 鎂鈮酸鉛及鐵鈮酸鉛鈣鈦礦陶瓷之反應燒結製程,中華民國發明專利, 204601號, 2004/5/21-2022/5/14.
2. A5Nb4O15陶瓷之直接燒結製程,發明專利093137257號申請案,(93/12/1)
3. (Zr1-xSnx)TiO4陶瓷之直接燒結製程,發明專利093137258號申請案,(93/12/1)
4. Ba2La3Ti3NbO15及Ba3La2Ti2Nb2O15微波介電陶瓷之無煆燒製程,發明專利094141646號申請案,(94/11/23)
5. Ba2La4Ti5O18及Ba3La3Ti4NbO18微波介電陶瓷之無煆燒製程,發明專利094141647號申請案,(94/11/23)
6. Zn0.5Ti0.5NbO4及Ni0.5Ti0.5NbO4微波介電陶瓷之無煆燒製程,發明專利094143070號申請案,(94/12/5)
7. 一種製造固態燃料電池電解質SrCeO3-δ及BaCeO3-δ陶瓷之無煆燒製程,發明專利095143693號申請案,(95/11/24)
8. 一種製造固態燃料電池連接層(LaSr)CrO3與(LaCa)CrO3陶瓷之無煆燒製程,發明專利095143696號申請案,(95/11/24)
9. 一種以Mg(OH)2混合TiO2製造MgTiO3基微波介電陶瓷之無煆燒製程,發明專利095143704 號申請案,(95/11/24)
10. 一種製造固態燃料電池陽極(LaSr)(GaMn)O3及(LaSr)(CrMn)O3陶瓷之直接燒結製程,發明專利095150100 號申請案,(95/12/28)
11. 一種製造固態燃料電池電解質(LaSr)(GaMg)O3-δ及(LaSr)(GaZn)O3-δ陶瓷之直接燒結製程,發明專利095150101 號申請案,(95/12/28)

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