系所成員 - 專任教師 - 國立高雄師範大學電子工程學系

回首頁/系所成員/專任教師/內文

專任教師行政人員碩士班學生

洪群雄 (Cheng-Shong Hong)教授

個人學歷

國立成功大學電機博士

研究專長

介電共振器天線、微波介電共振器濾波器、介電材料及元件、專利實務

聯絡電話

(07)7172930 分機 7915

電子信箱

cshong@nknu.edu.tw

實驗室

微波與陶瓷通訊元件實驗室|分機：7955
電子工廠|分機：

互動時段

週四：12：00 ~ 14：30

學經歷(Click)

學歷

畢業學校	主修學門系所	學位
國立成功大學	電機工程研究所	博士
國立中山大學	企業管理研究所	碩士
國立成功大學	電機工程研究所	碩士
國立成功大學	電機工程系	學士

經歷

服務機關	服務部門／系所	職稱
高雄師範大學	電子工程系	副教授
建國科技大學	電機工程系	副教授
建國科技大學	電機工程系	講師
交通部電信局	數據通信所	高級技術員

學術榮譽(Click)

期刊論文(Click)

項次	論文
1.	H.-H. Su, C.-S. Hong, H.-R. Chen, Y.-D. Juang, C.-C. Tsai, S.-Y. Chu, “Phase Structure Transformations and Electrical Properties of (Na₅₂K_0.4425)(Nb_0.8925Sb_0.07)O₃–0.0375LiTaO₃ Ceramics According to Sintering Temperature”, Journal of Solid State Science and Technology, 7 (3) N29-N35 (2018).
2.	H.-H. Sua, C.-S. Hong, C.-C. Tsai, S.-Y. Chu, “Domain structure of nonstoichiometric sodium potassium niobate-based ceramics for piezoelectric acoustic actuators”, Int., 44 (2018) 3787–3790.
3.	H.-H. Sua, C.-S. Hong, C.-C. Tsai, S.-Y. Chu, “Dielectric behaviors of Ba(Mg_1/3Nb_2/3)O₃ modified (Na₅K_0.5)NbO₃ ceramics”, Ceram. Int., 44 (2018) 7955–7962.
4.	C.-C. Lin, C.-W. Su, C.-M. Weng, Y.-C. Chien, S.-Y. Chu, C.-Y. Huang, C.-S. Hong, C.-C. Tsai, “Effects of two-stage post-annealing process on microstructure and electrical properties of sol-gel derived non-stoichiometric NKN thin films”, Applied Surface Science 428 (2018) 199–206.
5.	H.-H. Su, C.-S. Hong, C.-C. Tsai, and S.-Y. Chu, “Relaxor Behavior of Lead-Free Nonstoichiometric (Na_48-xK_0.48-xLi_0.04)Nb_0.89-xTa_0.05Sb_0.06O₃-xSrTiO₃ Ceramics”, Journal of Solid State Science and Technology, 6 (8) N117-N121 (2017).
6.	H.-H. Su, C.-S. Hong, C.-C. Tsai, and S.-Y. Chu, “Electric Properties of SrTiO₃ Modified (Na₄₈K_0.48Li_0.04)Nb_0.89Ta_0.05Sb_0.06O₃ Lead-Free Ceramics”, Journal of Solid State Science and Technology, 5 (10) N67-N71 (2016).
7.	H.-H. Su, C.-S. Hong, C.-C. Tsai, S.-Y. Chu, C.-S. Lin, “Effect of microstructure on the dielectric properties of (1-x)Na₅K_0.5NbO₃–xSrTiO₃ ceramics”, Ceram. Int., 42 (2016) 17558-17564.
8.	C.-M. Weng, C.-C. Tsai, C.-S. Hong, C.-C. Lin, C.-C. Chen, S.-Y. Chu, J. Sheen, Z.-Y. Chen, and H.-H. Su, “Effects of Non-Stoichiometry on the Microstructure, Oxygen Vacancies, and Electrical Properties of KNN-Based Thin Films”, Journal of Solid State Science and Technology, 5 (9) N49-N56 (2016).
9.	C.-C. Lin, C.-S. Hong, C.-Y. Huang, Y.-C. Chen, and S.-Y. Chua, “Effects of DC-Bias Voltage on Piezoelectric and Dielectric Properties of Li-Doped ZnO Thin Film”, Journal of Solid State Science and Technology, 5 (7) N40-N42 (2016).
10.	C.-C. Lin, J.-F. Tang, H.-H. Su, C.-S. Hong, C.-Y. Huang, and S.-Y. Chu, “Multi-step resistive switching behavior of Li-doped ZnO resistance random access memory device controlled by compliance current”, J. Appl. Phys., 119, 244506 (2016).
11.	H.-H. Nien, C.-S. Hong, S.-Y. Chu, H.-H. Su, C.-H. Lin, “Influence of bismuth additives on the dielectric properties of Pb(Fe_2/3W_1/3)₇Ti_0.3O₃ ceramics”, J. Alloys Comp., 650 (2015) 584–591.
12.	C.-C. Lin, C.-C. Chen, C.-M. Weng, S.-Y. Chu, C.-S. Hong, and C.-C. Tsai, “Effects of lithium doping on microstructure, electrical properties,and chemical bonds of sol-gel derived NKN thin films”, J. Appl. Phys., 117, 085307 (2015).
13.	C.-C. Tsai, S.-Y. Chu, J.-S. Jiang, C.-S. Hong, Y.-F. Chiu, “The phase structure, electrical properties, and correlated characterizations of (Mn, Sb) co-tuned PZMnNS–PZT ceramics with relaxation behavior near the morphotropic phase boundary”, Ceram. Int., 40 (2014) 11713–11725.
14.	S.-L. Yang, C.-C. Tsai, Y.-C. Liou, C.-S. Hong, and S.-Y. Chu, “Effects of Non-Stoichiometry on the Microstructure, Oxygen Vacancies, and Piezoelectric Properties of CuTa₂O₆-Doped NKN Ceramics”, J. Am. Ceram. Soc., (2013) 2906–2912.
15.	C.-S. Hong*, S.-Y. Chu, C.-C. Tsai, W.-C. Su, H.-H. Su, “Temperature-independent and enhanced dielectric properties for two-layer structure capacitors with 0.8Pb(Fe_2/3W_1/3)O₃-0.2PbTiO₃-MnO and 0.7Pb(Fe_2/3W_1/3)O₃-0.3PbTiO₃-MnO ceramics”, Ceram. Int., 39 (2013) 2949–2954.
16.	C.-C. Tsai, S.-Y. Chu, C.-S. Hong, S.-L. Yang, “Influence of A-site deficiency on oxygen-vacancy-related dielectric relaxation, electrical and temperature stability properties of CuO-doped NKN-based piezoelectric ceramics”, Ceram. Int., l39 (2013) S165–S170.
17.	S.-L. Yang, S.-M. Chen, C.-C. Tsai, C.-S. Hong, and S.-Y. Chu, “Fabrication of High-Power Piezoelectric Transformers Using Lead-Free Ceramics for Application in Electronic Ballasts”, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., vol. 60, no. 2, (2013) 408-413.
18.	C.-S. Hong*, S.-Y. Chu, C.-C. Tsai, C.-C. Hsu, “Effects of lanthanum dopants on the Curie-Weiss and the local order behaviors for Pb_1-xLa_x(Fe_2/3W_1/3)_0.7Ti_0.3O₃ relaxor ferroelectrics”, Mater. Res. Bull., 48 (2013) 200–206.
19.	C.-C. Lin, Z.-L. Tseng, K.-Y. Lo, C.-Y. Huang, C.-S. Hong, S.-Y. Chu, C.-C. Chang, and C.-J. Wu, “Unipolar resistive switching behavior of Pt/Li_xZn_1-xO/Pt resistive random access memory devices controlled by various defect types”, Appl. Phys. Lett., 101 (2012) 203501.
20.	S.-L. Yang, C.-C. Tsai, C.-S. Hong, S.-Y. Chu, “Effects of sintering aid CuTa₂O₆ on piezoelectric and dielectric properties of sodium potassium”, Mater. Res. Bull., 47 (2012) 998–1003.
21.	C.-S. Hong*, S.-Y. Chu, C.-C. Tsai, C.-C. Hsu, “The indirect synthesized method induced relaxor state to ferroelectric characteristics for Pb_0.95La_0.05(Fe_2/3W_1/3)_0.65Ti_0.35O₃ ceramics”, Ceram. Int., 38 (2012) 4123–4130.
22.	S.-L. Yang, C.-C. Tsai, Y.-C. Liou, C.-S. Hong, B.-J. Li, S.-Y. Chu, “Investigation of CuO-doped NKN ceramics with high mechanical quality factor synthesized by a B-site oxide precursor method”, J. Am. Ceram. Soc., 95 [3] (2012) 1011-1017.
23.	S.-L. Yang, C.-C. Tsai, Y.-C. Liou, C.-S. Hong, H.-C. Chen, S.-Y. Chu, “Differences Between Copper-Oxide- and Zinc-Oxide-Doped Sodium Potassium Niobate Ceramics”, J. Am. Ceram. Soc., 95 [7] (2012) 2110–2112.
24.	S.-L. Yang, C.-S. Hong, C.-C. Tsai, Y.-C. Liou, S.-Y. Chu, “Effects of modified-process on the microstructure, internal bias field, and activation energy in CuO-doped NKN ceramics”, J. Eur. Ceram. Soc., 32 (2012) 1643–1650.
25.	C.-C. Tsai, C.-S. Hong, C.-C. Shih, S.-Y. Chug, “Electrical properties and temperature behavior of ZnO-doped PZT–PMnN modified piezoelectric ceramics and their applications on therapeutic transducers”, J. Alloys Comp., 511 (2012) 54-62.
26.	S.-L. Yang, C.-C. Tsai, Y.-C. Liou, C.-S. Hong, B.-J. Li, S.-Y. Chu, “Effects of improved process of CuO-doped NKN lead-free ceramics on high-power piezoelectric transformers”, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., vol. 58 [12] (2011) 2555-2561.
27.	C.-C. Tsai, S.-Y. Chu, C.-S. Hong, S.-F. Chen, “Effects of ZnO on the dielectric, conductive and piezoelectric properties of low-temperature-sintered PMnN-PZT based hard piezoelectric ceramics”, J. Eur. Ceram. Soc., 31 (2011) 2013–2022.
28.	C.-C. Wu, C.-C. Diao, C.-F. Yang, C.-S. Hong, “The Influences of Particle sizes on the Dielectric Properties of PEI/(Ba_0.8Sr_0.2)(Ti_0.9Zr_0.1)O₃ Compositions”, Journal of Nanoscience and Nanotechnology, 11 (2011) 10567-10571.
29.	C.-S. Hong, S.-Y. Chu, C.-C. Tsai, W.-C. Su, C.-C. Hsu, “Manganese effect on the relaxation behaviors of the space charge polarization in Pb(Fe_2/3W_1/3)_0.9Ti_0.1O₃ ceramics”, Ceram. Int., 37(2011) 3405.
30.	C.-S. Hong, S.-Y. Chu, C.-C. Hsu, “Lanthanum Dopant Induced Transition from the Ferroelectric to the Relaxor State in 0.7PFW-0.3PT Ceramics”, Ceram. Int., 37 (2011) 1911.
31.	C.-S. Hong, S.-Y. Chu, C.-C. Tsai, W.-C. Su, C.-C. Hsu, “Effects of synthesized method on glassy behavior and freezing process of 0.75PFW-0.25PT ceramics” J. Appl. Phys., 109 (2011) 034106
32.	C.-S. Hong, S.-Y. Chu, C.-C. Tsai, W.-C. Su, “Investigating the physical meanings of diffused phase transition models”, J. Alloys Comp., 509 (2011) 2216.
33.	C.-S. Hong, S.-Y. Chu, C.-C. Hsu, “Effects of the sintering temperature on the diffused phase transition and the spin-glassy behavior in Pb0.95La0.05(Fe2/3W1/3)0.65Ti0.35O3 ceramics”, J. Appl. Phys., 107 (2010) 094110.
34.	C.-S. Hong, S.-Y. Chu, W.-C. Su, “Effect of synthesis method on the long-range order of the space charge type in 0.75PFW–0.25PT ceramics”, J. Alloys Comp., 497 (2010) 436.
35.	C.-S. Hong, S.-Y. Chu, W.-C. Su, H.-H. Nien, “Are the parameters of the empirical law dependent on the dielectric properties of the ferroelectric relaxors?”, Ceram. Int., 36 (2010) 1069.
36.	M.-R. Yang, C.-C. Tsai,C.-S. Hong, S.-Y. Chu, S.-L. Yang, “Piezoelectric and ferroelectric properties of CN-doped K0.5Na0.5NbO3 lead-free ceramics”, J. Appl. Phys., 108 (2010) 094103.
37.	M.-R. Yang, C.-S. Hong, C.-C. Tsai, S.-Y. Chu, “Effect of sintering temperature on the piezoelectric and ferroelectric characteristics of CuO doped 0.95(Na0.5K0.5)NbO3– 0.05LiTaO3 ceramics”, J. Alloys Comp., 488 (2010) 169.
38.	C.-S. Hong, S.-Y. Chu, C.-C. Tsai, W.-C. Su, S.-K. Changchien, “Comparing the freezing process and the spin-glass phenomenon of the nanopolarization based on the MnO additives PFW–PT relaxors”, J. Alloys Comp., 481 (2009) 70.
39.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, Y.-D. Juang, “The sintering temperature-induced transition from relaxor to ferroelectric in 0.7PbFe2/3W1/3O3–0.3PbTiO3 ceramics”, J. Alloys Comp., 459 (2008) 1.
40.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, Y.-D. Juang, “The dependence of the synthesis condition on the dielectric behaviors of the 0.75Pb(Fe2/3W1/3)O3-0.25PbTiO3 based ceramics”, J. Alloys Comp., 459 (2008) 328.
41.	C.-S. Hong, S.-Y. Chu, B.-J. Li, W.-C. Su, R.-C. Chang, H.-H. Nien, Y.-D. Juang, “Investigation of the dielectric properties of MnO-additive Pb(Fe2/3W1/3)-PbTiO3 relaxors using the spin-glass model”, J. Appl. Phys., 103 (2008) 094102.
42.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, Y.-D. Juang, “Investigation of the dielectric properties of MnO-additive Pb(Fe2/3W1/3)-PbTiO3 relaxors prepared by two different methods”, J. Alloy. Compd., 460 (2008) 658.
43.	C.-S. Hong, S.-Y. Chu, P.-W. Yeh, C.-S. Hong, P.-C. Kao, Y.-J. Huang, “The influence of Mg doped ZnO thin films on the properties of Love wave sensors”, Sens. actuators. B, 132 (2008) 290.
44.	C.-S. Hong, S.-Y. Chu, Y.-P. Wong, C.-S. Hong, H.-H. Huang, “The effects of sintering temperature on the properties of lead-free (Na0.5K0.5)NbO3–SrTiO3 ceramics”, J. Alloy. Compd., 456 (2008) 308.
45.	R.-C. Chang, S.-Y. Chu, P.-W. Yeh,C.-S. Hong, H.-H. Huang, Y.-J. Huang, “An investigation of Love wave devices based on ZnO:Mg/LiNbO3 structure”, Sens. actuators. B, 132 (2008) 312.
46.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, Y.-D. Juang, “Effects of the MnO additives on the properties of Pb(Fe2/3W1/3)-PbTiO3 relaxors: comparison of empirical model and experimental results”, J. Appl. Phys. 101 (2007) 054117.
47.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, Y.-D. Juang, “Dielectric Behaviors of PFW-PT Relaxors: Models Comparison and Numerical Calculations”, J. Appl. Phys. 101 (2007) 054120.
48.	R.-C. Chang, S.-Y. Chu, Y.-F. Lin,C.-S. Hong, P.-C. Kao, C.-H. Lu, “The effects of sintering temperature on the properties of (Na0.5K0.5)NbO3–CaTiO3 based lead-free ceramics”, Sens. actuators. A Phys., 138 (2007) 355.
49.	T.-Y. Chen, S.-Y. Chu, R.-C. Chang, C.-K. Cheng, C.-S. Hong, H.-H. Nien, “The characteristics of low-temperature sintered PbTiO3 based ceramics and its applications”, Sens. actuators. A Phys., 134 (2007) 452.
50.	R.-C. Chang, S.-Y. Chu, Y.-P. Wong, Y.-F. Lin,C.-S. Hong, “Properties of (Na0.5K0.5)NbO3–SrTiO3 based lead-free ceramics and surface acoustic wave devices”, Sens. actuators. A Phys., 136 (2007) 267.
51.	R.-C. Chang, S.-Y. Chu, Y.-F. Lin,C.-S. Hong, Y.-P. Wong, “An investigation of (Na0.5K0.5)NbO3–CaTiO3 based lead-free ceramics and surface acoustic wave devices”, J. Eur. Ceram. Soc., 27 (2007) 4453.
52.	R.-C. Chang, S.-Y. Chu, C.-S. Hong, Y.-T. Chuang, “An investigation of preferred orientation of doped ZnO films on the 36° YX-LiTaO3 substrates and fabrications of Love-mode devices”, Surf. Coat. Technol. 200 (2006) 3235.
53.	R.-C. Chang, S.-Y. Chu, C.-S. Hong, Y.-T. Chuang, “A study of Love wave devices in ZnO/Quartz and ZnO/LiTaO3 structures”, Thin Solid Films 498 (2006) 146.
54.	C.-S. Hong, 'Small annular slot antenna with chip capacitor loading,' Electronics Letters, vol. 36, no. 2, pp. 110-111, Jan. 20, 2000. SCI
55.	C.-S. Hong and C.Y. Huang, 'Sequentially rotated array of dielectric resonator antennas,' Proc. Natl. Sci. Counc. (ROC), Pt. A, vol. 25, no. 3, pp. 202-204, May 2001. EI
56.	C.-S. Hong, 'Gain-enhanced broadband microstrip antennas,' Proc. Natl. Sci. Counc. (ROC), Pt. A, vol. 23, no. 5, pp. 609-611, Sept. 1999. EI
57.	C.-S. Hong, 'Adjustable frequency dielectric resonator antenna,' Proc. Natl. Sci. Counc. (ROC), Pt. A, vol. 23, no. 6, pp. 736-738, Nov. 1999. EI

研討會論文(Click)

項次	論文
1.	S.-K. Changchien, H.-H. Nien, S.-W. Wang, F.-C. Wei, C.-S. Hong, M.-C. Shen and J.-W. Wang, “Implementation of an LLC Resonant Converter with Dual-Transformer”, 2018 International Conference on e-Commerce, e-Administration, e-Society, e-Education, and e-Technology, Osaka, Japan.
2.	C.-T. Wang, S.-R. Li, C. -S. Hong, S.-Y. Chu, “Investigation of the photoelectric characteristics of the MoO₃/Ag/MoO₃ tri-layer photodetector”, 2017 The 11th International Symposium on Semiconductor Light Emitting Devices, Banff, Canada.
3.	C.-Y. Huang, J.-M. Wu, C.-S. Hong, B.-R. Zeng, and C.-K. Wu, “Quasi-self-complementary antenna for bandnotched UWB applications”, 2016 International Symposium on Antennas and Propagation, 沖繩, 日本.
4.	Y. -C. Jhuang, F.-H. Wang, C.-F. Yang, M.-C. Liu, M.-P. Houng, M.-Chyi Wu, C.-S. Hong, “Effect of Different Substrates on the Properties of Ga₂O₃-Doped ZnO Thin Films and Their Applications in p-i-n α-Si:H Thin-Film Solar Cells”, 2016: 18th International Conference on Energy Science and Engineering, Zurich, Switzerland.
5.	C.-Y. Huang, C.-S. Hong, J.-M. Wu, Y.-M. Yan, A.-T. Yu, C.-C. Lin, “Quasi-self-complementary Antenna for Multifunctional Wireless Applications”, 2015 The Twelfth International Symposium on Wireless Communication Systems, Brussels, Belgium.
6.	Y.-H. Chen, Y.-T. Hsieh, C.-S. Hong, C.-C. Wu, C.-F. Yang, Y.-J. Liou, “Deposition of Transparent IGZO Conducting Thin Films by Co-Sputtering of Zn₂Ga₂O₃ and In₂O₃ Targets at Room Temperature”, 2014 International Conference on Photonics, Optoelectronics and Quantum Electronics.
7.	C.-S. Hong, S.-Y. Chug, C.-C. Hsu, “The long range order of Pb_0.95La_0.05(Fe_2/3W_1/3)_0.65Ti_0.35O₃ ceramics enhanced by synthesized condition”, 2011 Annual Conference of Materials Research Society.
8.	C.-F. Yang, C.-Y. Kung, Y.-C. Chen, S.-M. Wu, C.-S. Hong, R.-L. Wang, “T-Shaped Non-Orthogonal Feed Input/Output Dual-Mode Bandpass Filter”, Proceedings of Asia-Pacific Microwave Conference, 2010.
9.	洪群雄, 朱聖緣, 蘇文璋, 洪宇澤, “利用異質層結構製造具溫度補償特性的電容器”, 2010中華民國材料年會
10.	C.-S. Hong, S.-Y. Chu, C.-C. Hsu, Y.-T. Hung, “The spin-glass behaviors for Pb1-xLax(Fe2/3W1/3)0.7Ti0.3O3 ceramics”, Proceedings of the 2010 Annual Conference of the Chinese Society for Materials Science.
11.	C.-S. Hong, S.-Y. Chu, and W.-C. Su, “INVESTIGATING THE CURIE-WEISS DEVIATION AND THE LOCAL ORDER BEHAVIOR OF 0.75PFW-0.25PT RELAXORS PREPARED BY TWO DIFFERENT METHODS”, 10th European Conference on the Applications of Polar Dielectrics, 2010.
12.	Ming-Ru Yang, Sheng-Yuan Chu, Cheng-Che Tsai, and Cheng-Shong Hong*, “The Dynamic Characteristics of Ultrasonic Therapeutic Transducers Using Lead-Free Na0.5K0.5NbO3 Based Ceramics”, The 8th Pacific Rim Conference on Ceramic and Glass Technology, Vancour, Canada, invited speech, 2009.
13.	Cheng-Shong Hong, Hsiau-Hsian Nien, Shih-Kuen Changchien 「利用空間電荷序向模型討論燒結溫度對0.7Pb(Fe2/3W1/3)O3-0.3PbTiO3弛緩鐵電體序向特性的影響」, 2007中華民國材料年會
14.	C.-S. Hong, Hsiau-Hsian Nien, Shih-Kuen Changchien "The Spin-Glass Behaviors of the PFW-PT Ceramics Doping with MnO Additives", 2007 Annual Conference of Materials Research Society.
15.	洪群雄、朱聖緣、蘇文璋、張仁詮、粘孝先、莊陽德「控制燒結製程調變0.7PFW-0.3PT弛緩體鐵電特性」 2006中華民國材料年會
16.	洪群雄、朱聖緣、蘇文璋、張仁詮、粘孝先、莊陽德「利用迴歸統計技術衡量鐵電弛緩體擴散相轉換模型在模擬介電擴散現象之適合度」 2006中華民國材料年會
17.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, "THE BEHAVIORS OF MANGANESE IONS IN 0.7PFW-0.3PT RELAXORS", 2006 INTERNATIONAL SYMPOSIUM ON NANO SCIENCE AND TECHNOLOGY.
18.	C.-S. Hong, S.-Y. Chu, W.-C. Su, R.-C. Chang, H.-H. Nien, "Parameters Analyses and Characteristics Investigations on the diffusion transition model for ferroelectric relaxors", 2006 INTERNATIONAL SYMPOSIUM ON NANO SCIENCE AND TECHNOLOGY.
19.	C.-S. Hong, "Slot antenna with chip capacitor loading for size reduction," Proc. 2002 Progress in Electromagnetics Research Symp., p. xxx, July 1-5, 2002. SCI
20.	C.-S. Hong and C. Y. Huang, "Circularly polarized dielectric resonator antennas," Proc. 2000 International Zurich Seminar on Broadband Communications, pp. 69-71, Feb. 15-17, 2000. (Zurich, Switzerland)
21.	C.-S. Hong and C.-Y. Huang, '"esign of piezoelectric quartz crystal as a biosensor," 1999 陸軍官校七十五週年校慶綜合學術研討會, pp. 246-250, May 7-8, 1999. (Kaohsiung, Taiwan)
22.	洪群雄、羅榮村、紀捷聰, 『電子陶瓷之製程及變因探討,』第六屆三軍官校學術研討會, pp. 417-424, May 21, 1999. (Kaohsiung, Taiwan)
23.	C.-F. Yang and C.-S. Hong, "Dielectric properties of Bi2O3-ZnO-Nb2O5 and Bi2O3-Ni2O3-Nb2O5 based ceramics", 1999中華民國材料年會, no. H-09P, Nov. 19-20, 1999. (HsinChu, Taiwan)

研究計畫(Click)

推廣服務(Click)

口試委員
1.	97年度成成功大學電機系碩士畢業口試(徐嘉誠)
2.	97學年度高雄師大物理系碩士畢業口試（葉宗玹）
3.	97學年度成功大學電機系碩士畢業口試(邱韻芳、黃筱絨)
4.	98年度成高雄師大半導體研究所碩士畢業口試(張偉民)
5.	98學年度成功大學電機系碩士畢業口試(周佳泊)
6.	98學年度成功大學奈米科技暨微系統工程研究所碩士畢業口試(陳宗佑)
7.	99學年度成功大學電機系碩士畢業口試(張簡、黃聖凱)

命題及招生委員
1.	98學年度高雄師範大學半導體研究所碩士班研究生甄試入學-招生委員
2.	98學年度高雄師範大學半導體研究所碩士班研究生入學考試-命題委員
3.	99學年度高雄師範大學電子工程學系碩士班研究生入學考試-命題委員
4.	99學年度高雄師範大學電子工程學系碩士班研究生入學考試-命題委員
5.	100學年度高雄師範大學電子工程學系碩士班研究生甄試入學-招生委員

監試委員
1.	98學年度大學入學考試學科能力測驗
2.	99學年度大學入學考試指定科目考試

學校參與導師工作
1.	97學年度高雄師範大學電子一導師
2.	97學年度第1學期利用公餘熱心訪視賃居生
3.	98學年度高雄師範大學電子二導師
4.	98學年度高雄師範大學電子二導師
5.	100學年度高雄師範大學電子四導師

榮譽
1.	榮獲建國科技大學95 學年度論文優良教師。
2.	榮獲高雄師範大學97 學年度優良導師。
3.	榮獲高雄師範大學98 學年度論文優良教師。
4.	榮獲高雄師範大學99 學年度論文優良教師。

地方教育輔導
1.	99/4/29-台灣省第50屆(99年)高級中等學校第6區科學展覽會評審
2.	99/11/30-全國高級中等學校99學年度工業類科學生技藝競賽-命題及評判工作委員

校內委員及代表
1.	97年：系務會議委員、系教評委員、系課程委員、院教評委員
2.	98年：系務會議委員、系教評委員、系課程委員
3.	99年：系務會議委員、系教評委員、系課程委員、院教評委員、校務會議代表

其他
1.	在建國科大期間，對學生專題製作多有指導，從機構規劃，電子電路設計及實際製作均有參與。
2.	在建國科大期間，對學生專題製作多有指導，從機構規劃，電子電路設計及實際製作均有參與。
3.	協助建國科大升格及教育部評鑑等工作。

回上一頁

計畫名稱	計畫內擔任工作	起訖年月	輔助機構
水下獵能系統的設計與開發	主持人	106.8~109.7	科技部
鋇鎂鈮基摻雜無鉛陶瓷材料之研究:介電、壓電及電阻式記憶體特性之探討及其應用(NSC102-2221-E-017-009-MY3)	主持人	102.8~105.7	國科會
無鉛陶瓷材料之開發及其應用(III) (NSC 99-2221-E-017 -005 -)	主持人	99.8~100.7	國科會
無鉛陶瓷材料之開發及其應用(II)(NSC 98 - 2221 - E - 017 - 002 -)	主持人	98.8~99.7	國科會
無鉛陶瓷材料之開發及其應用(NSC 97 - 2221 - E - 017 - 013 -)	主持人	97.8~98.7	國科會
Modify the dielectric characteristics of the (1-x)Pb(Fe_2/3W_1/3)O₃-PbTiO₃ relaxor ferroelectric system by using the indirect synthesized method	主持人	96.10~97.10	建國科技大學
Analysis and Determination of the Physical and Mathematical Means in Diffuse Phase Transition’s Models for Relaxors	主持人	95.10~96.10	建國科技大學
Diffuse phase transitions in PbFe_2/3W_1/3O₃–PbTiO₃ relaxors system	主持人	93.10~94.10	建國科技大學

年度	項目
77	高考電機技師及格
95	榮獲建國科技大學95 學年度論文優良教師。
97	榮獲高雄師範大學97 學年度優良導師。
98	榮獲高雄師範大學98 學年度論文優良教師。
99	榮獲高雄師範大學99 學年度論文優良教師。
100	榮獲高雄師範大學100 學年度論文優良教師。
101	榮獲高雄師範大學101 學年度論文優良教師。