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期刊論文(潘正堂老師)

arow.gif (1479 bytes)  期刊論文:

(A).期刊論文

H-index paper (High citation index papers, selected by Scopus of Elsevier B.V.)

1.          C.T. Pan*, C.H. Su, “Fabrication of Gapless Triangular Micro-Lens Array”, Sensors and Actuators A-Physcial, Vol.134 pp. 631~640, 2007. (ELECTRICAL & ELECTRONIC [44/206=21.4%], I.F. 1.434) (SCI) [cited 5]

2.          C.H. Chien, C.T. Pan*, C.C. Hesieh, “A Study of The Geometry of Microball Lens Arrays using The Novel Batch-Fabrication Technique”, Sensors and Actuators A: Physical, (122), pp.55-63, 2005. (INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI) [cited 5]

3.          C.T. Pan*, P.J. Cheng, M.F. Chen and C.K. Yen, “Intermediate Wafer Level Bonding and Interface Behavior ”, Microelectronics and Reliability, Vol. 45, pp. 657-663, 2005. (ENGINEERING, ELECTRICAL & ELECTRONIC [105/209=50%], I.F. 0.607) (SCI) [cited 7]

4.          C.T. Pan*, S.C. Shen, ”Magnetically-Actuated Bi-Directional Microactuators with Permalloy and Fe /Pt Hard Magnet”, Journal of Magnetism and Magnetic Materials, Vol. 285, pp. 422-432, 2005.(MATERIALS SCIENCE, MULTIDISCIPLINARY [70/177=40%], I.F. 1.031) (SCI) [cited 5]

5.          M.-C. Chou, C.T. Pan*, S.C. Shen, M.F. Chen, S.-T. Wu, “A Novel Method to Fabricate Gapless Hexagonal Micro-lens Array”, Sensors and Actuators A-Physical, Vol. 118/2, pp. 298-306, 2005.(INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI) [cited 9]

6.          Pan, C.T., Shen, S.C., “Magnetically actuated bi-directional microactuators with permalloy and Fe/Pt hard magnet,” Journal of Magnetism and Magnetic Materials 285 (2005) 422-432. (MATERIALS SCIENCE, MULTIDISCIPLINARY [48/189=25.4%], I.F. 1.704) (SCI) [cited 5]

7.          C.T. Pan*, C.H. Chien, C.C. Hsieh, “Technique of Microball Lens Formation for Efficient Optical Coupling”, Applied Optics, Vol. 43, pp. 5939-5946, 2004. (OPTICS [17/64=26.6%], I.F. 1.701) (SCI)[cited 5]

8.          C.T. Pan*, “Design and Fabrication of Sub-Micrometer Eight-Level Bi-Focal Diffraction Optical Elements”, Journal of Micromechanics and Microengineering, (14), pp. 471–479, 2004. (ENGINEERING, MECHANICAL [8/106=7.5%], I.F. 1.755) (SCI) [cited 6]

9.          C.T. Pan*, “Selective Low Temperature Microcap Packaging Technique through Flip Chip and Wafer Level Alignment”, Journal of Micromechanics and Microengineering, (14), pp. 522–529, 2004. (ENGINEERING, MECHANICAL [8/106=7.5%] I.F. 1.755) (SCI) [cited 7]

10.      C.T. Pan*, “Silicon-Based Coupling Platform for Optical Fiber Switching in Free Space”, Journal of Micromechanics and Microengineering, (14), pp. 129–137, 2004. (EI, SCI; Impact factor=1.755) (ENGINEERING, MECHANICAL, [8/106=7.5%]) (SCI) [cited 9]

11.      S.Y. Yang*, H.E. Horng, C.Y. Hong, H.C. Yang, M.C. Chou, C.T. Pan, Y.H. Chao, “Control Method for the Tunable Ordered Structures in Magnetic Fluid Microstrips”, Journal of Applied Physics, Vol. 93, No. 6, pp. 3456-3460, 2003. (PHYSICS, APPLIED [17/94=42.7%], I.F. 2.460) (SCI). [cited 13]

12.      C.T. Pan, H. Yang*, S.-C. Shen, M.-C. Chou, and H.-P. Chou, “A Low-Temperature Wafer Bonding Technique using Patternable Materials”, Journal of Micromechanics And Microengineering, Vol.12, No.5, pp. 611-615, 2002. (NANOSCIENCE & NANOTECHNOLOGY [19/46=42.7%], I.F. 1.930) (EI, SCI; Impact factor=1.211) (SCI) [cited 54]

13.      H. Yang*, C.T. Pan, and M.-C. Chou, “Ultra-Fine Machining Tool/Molds by LIGA Technology”, Journal of Micromechanics and Microengineering, Vol.11, No. 2, pp. 94-99, 2001. (NANOSCIENCE & NANOTECHNOLOGY [19/46=41.3%], I.F. 1.930) (SCI) [cited 46]

14.      S.C. Shen, C.T. Pan*, H.P. Chou, “Electromagnetic Optical Switch for Optical Network Communication”, Journal of Magnetism and Magnetic Materials, Vol. 239, No. 1-3, pp. 610-613, 2002.(PHYSICS, CONDENSED MATTER [20/61=32.8%], I.F. 1.704) (SCI) [cited 11]

15.      C.T. Pan*, H.Yang, H.-J. Wang, and M.-C. Chou, “Behavior of the Developing Process for Ultra-Deep Microstructures”, Sensors and Materials, Vol.11, No. 6, pp. 339-347, MYU Tokyo, 1999.(INSTRUMENTS & INSTRUMENTATION [37/55=67.2%], I.F. 0.518) (SCI) [cited 5]

16.      C.T. Pan, and H. Hocheng*, “The Preliminary Study of Anisotropic Heat Affected Zone in Laser Grooving of Fiber Reinforced Composite Material”, J. Materials Processing Technology, Vol. 62, pp. 54-60, 1996. (MATERIALS SCIENCE, MULTIDISCIPLINARY [12/38=31.6%], I.F. 0.816) (SCI)[cited 7]

 

 (a) International journals

 

1.          K.H. Liu , M.F. Chen, C.T. Pan , M.Y. Chang, W.Y. Huang,“Fabrication of various dimensions of high fill-factormicro-lens arrays for OLED package”, Sensors and Actuators A-Physcial, 2010.( ENGINEERING, ELECTRICAL & ELECTRONIC[64/229=27.9%] , I.F. 1.724)

2.          C.T. Pan , Z.H. Liu , Y.C. Chen , C.F. Liu , “Design and fabrication of flexible piezo-microgenerator by depositing ZnO thinfilms on PET substrates”, Sensors and Actuators A-Physcial, 2010.( ENGINEERING, ELECTRICAL & ELECTRONIC[64/229=27.9%] , I.F. 1.724)

3.          C. T. Pan, T. T. Wu, J. K. Tseng, C. Y. Su, W. J. Wang, J. C. Huang, “Mechanical behavior of metallic glasses Mg–Cu–Y using nano-indentation,” Microsyst Technol, 2009. (Article in Press) (SCI)

4.          C.T. Pan, T.T. Wu, C.F. Liu, C.Y. Su, W.J. Wang, J.C. Huang, “Study of scratching Mg-based BMG using nanoindenter with Berkovich probe,” Materials Science and Engineering A, 2009. (Article in Press) (SCI)

5.          Y. M. Hwang, C.T. Pan*, M. F. Chen, “Fabrication of Various Dimensions of High Fill-Factor Micro-Lens Arrays for OLED Package,” Sensors and Actuators A: physical. (Revised) (SCI)

6.          Y. M. Hwang, C.T. Pan, M. F. Chen, “Design and fabrication of compound optical diffuser film,” Journal of Micromechanics and Microengineering. (Submitted)     (SCI)

7.          C.T. Pan, M. F. Chen, Y.C. Hsu, “Fabrication and Design of Various Dimensions of Multi-Steps Ashperical Microlens Arrays for OLED Package,”  Sensors and Actuators A: physical. (Prepared) (SCI)

8.          C.T. Pan, T.T. Wu, S.C. Shen, M.C. Chou, T.C.Wu,” Study of multi-step X-ray exposures to fabricate microstructure,” Sensors and Actuators A: Physical, Vol. 156, pp. 406–414, 2009.( ENGINEERING, ELECTRICAL & ELECTRONIC [64/229=21.4%], I.F. 1.724) (SCI)

9.          S C Shen, C T Pan, K H Liu, C H Chao and J C Huang, “Fabrication of an eyeball-like spherical micro-lens array using extrusion for optical fiber coupling,” Journal of micromechanics and microengineering, Vol. 19, 125017, 2009. (MECHANICS [10/112=10.7%], I.F. 2.233) (SCI)

10.      C. T. Pan, T. T. Wu, Y. T. Liu, Y. Yamagata, J. C. Huang, “Fabrication of Aspheric Surface Using Ultraprecision Cutting and BMG Molding,” Journal of Materials Processing Technology 209, pp. 5014-5023, 2009,. (ENGINEERING, INDUSTRIAL [11/33=33%], I.F. 0.816) (SCI)

11.      C.T.Pan, M.F. Chen, P.J. Cheng, Y.M. Hwang, S.D. Tseng, J.C.Huang, “Fabrication of Gapless Dual-curvature Micro-Lens as Diffuser for LED Package”, Sensors and Actuators A-Physical, Volume 150, Issue 1, 16, Pages 156-167, March 2009. (ELECTRICAL & ELECTRONIC [55/227=24%], I.F. 1.434)(SCI)

12.      C.Y. Su, C.T.Pan*, T.P. Liou, P.T.Chen, C.K. Lin, “Investigation of the microstructureand characterizations of TiN/CrN nanomultilayer deposited by unbalanced magnetronsputter process”,Surface & Coatings Technology, 203, pp. 657–660, 2008. (MATERIALS SCIENCE, COATINGS & FILMS  [4/18=22%], I.F. 1.678) (SCI)

13.      C.T.Pan*, C.Y. Su, “Study of micro-lens array by reflow process”, Journal of modern optics, Vol. 55, No. 17, pp.2843–2856, 2008. (OPTICS [23/64=35.9%], I.F. 1.074) (SCI)

14.      Y. C. Chang, T. T. Wu, M. F. Chen, C. J. Lee, J. C. Huang, and C. T. Pan, “Finite Element Simulation of Micro-Imprinting in Mg-Cu-Y Amorphous Alloy”, Materials Science and Engineering A, vol. 499, pp. 153-156, 2008. (MATERIALS SCIENCE, MULTIDISCIPLINARY  [60/190=31.6%], I.F. 1.457)(SCI)

15.      C.T.Pan*, T.T.Wu, H.Y.Tsai, M.C.Chou, T.C.Wu, “Fabrication of a micro-punching head using LIGA and stacking processes”, Journal of micromechanics and microengineering, Vol.18, 095012 11pp, 2008. (MECHANICS [10/112=8.9%], I.F. 1.93) (SCI)

16.      C.W.Tang, Y.C.Chang, T.T.Wu, J.C.Huang*, C.T.Pan, “Micro-forming of Au49 Ag5.5 Pd2.3 Cu26.9 Si16.3 metallic glasses in supercooled region”, Advanced Materials Research, Vol. 47-50, pp 266-269, 2008. (EI)

17.      C.T.Pan*, T.T.Wu, Y.C.Chang, J.C.Huang, “Experiment and simulation of hot embossing of a bulk metallic glass with low pressure and temperature”, Journal of micromechanics and microengineering, Vol.18, No.2, 025010  12pp, 2008.(MECHANICS [10/112=8.9%],I.F. 1.93) (SCI)

18.      C.T. Pan*, R.H. Cheng, “Development of Self-Built Multilayer Aligner for Imprint Process”, Journal of Materials Processing Technology, Vol.204, No.1-3, pp.502-507, 2008. (ENGINEERING, MANUFACTURING [12/38=31.5%], I.F. 0.816) (SCI)

19.      C.Y. Su, C.K. Lin, T.K. Yang, H.C. Lin, C.T. Pan*, “Oxygen Partial Pressure Effect on the Preparation of Nanocrystalline Tungsten Oxide Powders by A Plasma Arc Gas Condensation Technique”, International  Journal of  Refractory  Metals  and Hard Materials, Vol.26, No5, pp. 423~428,2008.(METALLURGY & METALLURGICAL ENGINEERING [13/66=19.7%], I.F. 0.803) (SCI)

20.      C.T. Pan*, T.T. Wu, M.F. Chen, Y.C. Chang, C.J. Lee, J.C. Huang, “Hot Embossing of Micro-Lens Array on Bulk Metallic Glass”, Sensors and Actuators A-Physcial, Vol.141, pp. 422~431, 2008. (ELECTRICAL & ELECTRONIC [55/227=24%], I.F. 1.434) (SCI) [cited 2]

21.      C.T. Pan*, C.H. Su, “Fabrication of High Fill Factor Optical Film using Two-Layer Photoresists”, Journal of Modern Optics, Vol.55, No. 1, pp. 33~42, 2008. (OPTICS [23/64=35.9%], I.F. 1.189) (SCI)

22.      C.T. Pan*, Y.J. Chen, “Application of Low Temperature Co-Fire Ceramics on In-Plane Micro-Generator”, Sensors and Actuators A-Physical Vol.144, pp.114-153, 2008. (ELECTRICAL & ELECTRONIC [55/227=24%], I.F. 1.434) (SCI)

23.      M.C. Chou, C.T. Pan*, T.T. Wu, C.T. Wu, “Study of Deep X-Ray Lithography Behaviour for Microstructures”, Sensors and Actuators A-Physical, Vol.141, pp. 703~711, 2008. (ELECTRICAL & ELECTRONIC [55/227=24%], I.F. 1.434) (SCI) [cited 2]

24.      C.T. Pan*, C.C. Hsieh, C.Y. Su, Z.S. Liu, “Study of Cutting Quality For TFT-LCD Glass Substrate”, International  Journal  of  Advanced  Manufacturing  Technology, Vol. 39, Numbers 11-12, pp. 1071-1079, 2008.(ENGINEERING, MANUFACTURING [29/38=76%], I.F. 0.418) (SCI)

25.      C.T. Pan*, S.C. Lo, J.C. Yang and Y.J. Chen, “Fabrication of Optical Disk Mastering using Electron Beam and Embossing Process”, Optical and Quantum Electronics, Vol.39, No. 8, pp. 693~705, 2007. (ENGINEERING, ELECTRICAL & ELECTRONIC [110/206=53.4%], I.F. 0.644) (SCI)

26.      C.T. Pan*, H. Yang, M. K. Wei, “248 Nm Excimer Laser Drilling PI Film for Nozzle Plate Application”, International Journal of Advanced Manufacturing Technology, Vol.34 pp. 889~897, 2007. (ENGINEERING, MANUFACTURING [26/37=70%], I.F. 0.418) (SCI)

27.      C.T. Pan*, T.T. Wu, “Simulation and Fabrication of Magnetic Rotary Microgenerator with Multipolar Nd/Fe/B Magnet”, Microelectronics Reliability, Vol.47 pp. 2129~2134, 2007. (ENGINEERING, ELECTRICAL & ELECTRONIC [92/206=44.7%], I.F. 0.815)  (SCI)

28.      H. Chao, C.T. Pan*, and J. R. Wu, “Fabrication of 3-D Submicron Glass Structures by FIB”, The 2nd Ieee International Conference on Nano/Micro Engineered and Molecular Systems, pp. 588~592, 2007.(EI)

29.      C.T. Pan*, C.H. Su, “Fabrication of Gapless Triangular Micro-Lens Array”, Sensors and Actuators A-Physcial, Vol.134 pp. 631~640, 2007. (ELECTRICAL & ELECTRONIC [44/206=21.4%], I.F. 1.434) (SCI) [cited 5]

30.      C.T. Pan*, J. Shiea and S. C. Shen, “Fabrication of an Integrated Piezo-Electric Micro-Nebulizer for Biochemical Sample Analysis”, Journal of Micromechanics and Microengineering, Vol.17 ,pp. 659~669, 2007. (MECHANICS [6/109=5.5%], I.F. 2.321) (SCI) [cited 1]

31.      C.T. Pan*, H.Yang, M.K.Wei, F.Y.Chang, “PET Polymer Ablation using Excimer Laser for Nozzle Plate Application”, Materials Science and Technology, Vol. 23, No 8, pp.980~986, 2007. (METALLURGY & METALLURGICAL ENGINEERING [22/65=33.8%], I.F. 0.677) (SCI)

32.      C.T. Pan* and T.T. Wu, “Development of A Rotary Electromagnetic Microgenerator”, Journal of Micromechanics and Microengineering, Vol. 17 pp. 120~128, 2007. (MECHANICS [6/109=5.5%], I.F. 2.321) (SCI) [cited 4]

33.      C.T. Pan*, R.F. Shyu, K.L. Sher, Y.R. Hsu and M.N. Hsiao, “Applications of Electroless Silver Plating on TFT Process”, Journal of the Chinese Society of Mechanical Engineers, Vol. 27, No. 1, pp. 41~45, 2006. (EI)

34.      R. F. Shyu, C.T. Pan*, S. C. Lin, “Parametric Study of Spherical Micro-Lens Array”, Materials Science Forum, Vols. 505-507, pp. 595-600, 2006.(MATERIALS SCIENCE, MULTIDISCIPLINARY[137/178=77%], I.F. 0.399) (SCI)

35.      C.T. Pan*, P. J. Cheng, Y. M. Hwang, M. F. Chen, H. S. Chuang and C. T.  Yang, “Three-Dimensional Micro-Flow Measurement In A Capillary with A Diode Laser Micro-Particle Image Velocitmetry”, Materials Science Forum, Vols. 505-507, pp. 343-348, 2006. (MATERIALS SCIENCE, MULTIDISCIPLINARY [137/178=77%], I.F. 0.399) (SCI)

36.      C.T. Pan*, P. J. Cheng, S. C. Shen, M. F. Chen, R. Y. Wang, M. C. Chou, T. C. Wu, “Applications ofLIGA on Micro-Punching Process for Metallic Materials”, Micro-Particle Image Velocitmetry”, Materials Science Forum, Vols. 505-507, pp. 55-60, 2006. (MATERIALS SCIENCE, MULTIDISCIPLINARY [137/178=77%], I.F. 0.399) (SCI) [cited 1]

37.      S.C. Shen, C.T. Pan*, Y.R. Wang, C.C. Chang, “Fabrication of Integrated Nozzle Plates for Inkjet PrintHead using Microinjection Process”, Sensors And Actuators A-Physcial, (127), pp. 241-247, 2006.(INSTRUMENTS & INSTRUMENTATION [10/52=19.2%], I.F. 1.363) (SCI) [cited 2]

38.      C.T. Pan*, Y.M. Hwang, H.L. Hu, “Fabrication and Analysis of A Magnetic Self-Power Microgenerator”, Journal of Magnetism and Magnetic Materials, Vol.304, pp.e394-e396, 2006. MATERIALS SCIENCE, MULTIDISCIPLINARY [80/178=45%], I.F. 1.212) (SCI) [cited 2]

39.      C.T. Pan*, P.J. Cheng, C.K. Yen, C.C. Hsieh, “Application of Polyimide to Bending-Mode Microactuators with Ni/Fe and Fe/Pt Magnet”, Microelectronics Reliability, (46), pp. 1369–1381, 2006.(ENGINEERING, ELECTRICAL & ELECTRONIC [97/208=46.6%], I.F. 0.724) (SCI) [cited 1]

40.      Cheng, P.-J., Shen, S.-C., Pan, C.-T., Su, C.-Y., Hsieh, C.-C., Wu, T.-T., Liu, H.-C., “In-plane microgenerator with high energy product magnet,” Journal of the Chinese Society of Mechanical Engineers, Transactions of the Chinese Institute of Engineers, Series C/Chung-Kuo Chi Hsueh Kung Ch'eng Hsuebo Pao 27 (2006) 185-189. (EI)

41.      C.T. Pan* , H. Yang, M.-C. Chou, S.-C. Shen, “Integrated Electromagnetic Microactuators with A Large Driving Force”, Microsyst Technol, Vol.12(1-2), pp.173-179, 2005. (ENGINEERING, ELECTRICAL & ELECTRONIC [100/208=48%], I.F. 0.72) (SCI)

42.      C.T. Pan*, Y.M. Hwang, C.W. Hesieh, “Fast Fabrication of Silicon-Based Microstructures using 355nm Uv Laser”, Journal of Material Science Technologies, Vol. 21, No. 11, pp. 1344~1348, 2005. (METALLURGY & METALLURGICAL ENGINEERING [22/71=31%], I.F. 0.639) (SCI)

43.      C.H. Chien, C.T. Pan*, C.C. Hesieh, “A Study of The Geometry of Microball Lens Arrays using The Novel Batch-Fabrication Technique”, Sensors and Actuators A: Physical, (122), pp.55-63, 2005. (INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI) [cited 5]

44.      C.T. Pan*, Y.M. Hwang, C.W. Hesieh, “Dynamic Characterization of Silicon-Based Microstructure of High Aspect Ratio by Dual-Prism UV Laser System”, Sensors and Actuators A: Physical, (122), pp. 45-54, 2005. (INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI) [cited 2]

45.      C.T. Pan*, M.F. Chen, “An Efficient Method to Improve the Proximity Effect for Electron Beam Optical Disc Mastering”, Nanotechnology, Vol. 16, pp. 410-416, 2005. (ENGINEERING, MULTIDISCIPLINARY [1/65=1%], I.F. 3.322) (SCI) [cited 2]

46.      C.T. Pan*, P.J. Cheng, M.F. Chen and C.K. Yen, “Intermediate Wafer Level Bonding and Interface Behavior ”, Microelectronics and Reliability, Vol. 45, pp. 657-663, 2005. (ENGINEERING, ELECTRICAL & ELECTRONIC [105/209=50%], I.F. 0.607) (SCI) [cited 7]

47.      C.T. Pan*, S.C. Shen, ”Magnetically-Actuated Bi-Directional Microactuators with Permalloy and Fe /Pt Hard Magnet”, Journal of Magnetism and Magnetic Materials, Vol. 285, pp. 422-432, 2005.(MATERIALS SCIENCE, MULTIDISCIPLINARY [70/177=40%], I.F. 1.031) (SCI) [cited 5]

48.      C.T. Pan*, “Polymeric Magnetic Microactuator with Efficient Permalloy Loop Design”, Microsystem Technologies, Vol. 11, pp. 1-10, 2005. (ENGINEERING, ELECTRICAL & ELECTRONIC[105/209=50%], I.F. 0.732) (SCI) [cited 1]

49.      M.-C. Chou, C.T. Pan*, S.C. Shen, M.F. Chen, S.-T. Wu, “A Novel Method to Fabricate Gapless Hexagonal Micro-lens Array”, Sensors and Actuators A-Physical, Vol. 118/2, pp. 298-306, 2005.(INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI) [cited 9]

50.      Pan, C.T., Hwang, Y.M., Hsieh, C.W., “Fast fabrication of silicon based microstructures using 355 nm UV laser,” Materials Science and Technology 21 (2005) 1344-1348. (METALLURGY & METALLURGICAL ENGINEERING [21/66=31.8%], I.F. 0.713) (SCI)

51.      Pan, C.T., Shen, S.C., “Magnetically actuated bi-directional microactuators with permalloy and Fe/Pt hard magnet,” Journal of Magnetism and Magnetic Materials 285 (2005) 422-432. (MATERIALS SCIENCE, MULTIDISCIPLINARY [48/189=25.4%], I.F. 1.704) (SCI) [cited 5]

52.      Pan, C.T., Shen, S.C., Hsieh, C.-C., Chien, C.-H., Chen, Y.-C., “Numerical method to predict and fabricate aspherical microlens arrays using 248-nm excimer laser ablation,” Journal of Microlithography, Microfabrication and Microsystems 3 (2004) 555-562. (ENGINEERING, ELECTRICAL & ELECTRONIC [87/227=0.3833], I.F. 0.986) (SCI)

53.      Pan, C.T., “Selective electroless copper plating micro-coil assisted by 248 nm excimer laser,”Microelectronic Engineering 71 (2004) 242-251. (ENGINEERING, ELECTRICAL & ELECTRONIC[50/227=22%], I.F. 1.503) (SCI) [cited 4]

54.      Pan, C.-T., Shen, S.-C., Yang, H., “Efficient Coupling of Electrostatic Optical Fiber Switch,” Sensors and Materials 16 (2004) 13-24. (INSTRUMENTS & INSTRUMENTATION [37/55=67.3%], I.F. 0.518) (SCI)

55.      C.T. Pan*, S.C. Shen, C.C. Hsieh, “Magnetically-Actuated Bending-Mode Microactuators with Excimer Laser Ablation”, Plastics, Rubbers and Composites, Vol. 33,  pp. 1-5, 2004. (MATERIALS SCIENCE, COMPOSITES [13/23=56.5%], I.F. 0.412) (SCIE)

56.      C.T. Pan*, C.H. Chien, C.C. Hsieh, “Technique of Microball Lens Formation for Efficient Optical Coupling”, Applied Optics, Vol. 43, pp. 5939-5946, 2004. (OPTICS [17/64=26.6%], I.F. 1.701) (SCI)[cited 5]

57.      C.T. Pan*, “Perpendicular Magnetic Anisotropic Field for Polyimide-Based Microactuator with Excimer Laser Ablation”, Sensors and Actuators A-Physical, (113), pp. 240-247, 2004. (INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI)

58.      C.T. Pan*, H.S. Chuang, C.Y. Cheng and C.T. Yang, “Micro-Flow Measurement with A Laser Diode Micro-Particle Image Velocimetry”, Sensors and Actuators A-Physical, (116), pp. 51-58, 2004.(INSTRUMENTS & INSTRUMENTATION [8/48=16.7%], I.F. 1.462) (SCI) [cited 4]

59.      C.T. Pan*, “Design and Fabrication of Sub-Micrometer Eight-Level Bi-Focal Diffraction Optical Elements”, Journal of Micromechanics and Microengineering, (14), pp. 471–479, 2004. (ENGINEERING, MECHANICAL [8/106=7.5%], I.F. 1.755) (SCI) [cited 6]

60.      C.T. Pan*, “Selective Low Temperature Microcap Packaging Technique through Flip Chip and Wafer Level Alignment”, Journal of Micromechanics and Microengineering, (14), pp. 522–529, 2004. (ENGINEERING, MECHANICAL [8/106=7.5%] I.F. 1.755) (SCI) [cited 7]

61.      C.T. Pan*, “Selective Electroless Copper Plating Micro-Coil Assisted by 248nm Excimer Laser”, Microelectronic Engineering, Vol. 71/3-4, pp. 242-251, 2004. (ENGINEERING, ELECTRICAL & ELECTRONIC  [50/227=22%], I.F. 1.503) (SCI) [cited 4]

62.      C.T. Pan*,and S.C. Shen, “Design And Fabrication of Polymeric Micro-Optical Components using Excimer Laser Ablation”, Materials Science and Technology, Vol. 20, pp. 270-274, 2004.(MATERIALS SCIENCE, MULTIDISCIPLINARY [115/190=60.5%], I.F. 0.713) (SCI) [cited 1]

63.      C.T. Pan*, “Silicon-Based Coupling Platform for Optical Fiber Switching in Free Space”, Journal of Micromechanics and Microengineering, (14), pp. 129–137, 2004. (EI, SCI; Impact factor=1.755) (ENGINEERING, MECHANICAL, [8/106=7.5%]) (SCI) [cited 9]

64.      H.Yang, C.T. Pan*, S.C. Shen, “Optical Switch with Auto-Aligning Fibers and Latching Micro-Mirrors”, Microsystem Technologies, 10, pp.155–160, 2004. (ENGINEERING, ELECTRICAL & ELECTRONIC [97/227=42.7%], I.F. 0.912) (SCI) [cited 1]

65.      Hocheng. H.*, C.T. Pan*, and C.C. Cheng, “Formation of Micro-Lens By Reflow of Dual Photoresist”,Japanese Journal of Applied Physics, Vol. 42, No.6B, pp. 4044-4047, 2003. (PHYSICS, APPLIED[50/94=53.2%], I.F. 1.247) (SCI) [cited 4]

66.      S.Y. Yang*, H.E. Horng, C.Y. Hong, H.C. Yang, M.C. Chou, C.T. Pan, Y.H. Chao, “Control Method for the Tunable Ordered Structures in Magnetic Fluid Microstrips”, Journal of Applied Physics, Vol. 93, No. 6, pp. 3456-3460, 2003. (PHYSICS, APPLIED [17/94=42.7%], I.F. 2.460) (SCI). [cited 13]

67.      Gwo-Bin Lee*, Chen-sho Shey, C.T. Pan, “Micro Optical Fiber Switcher using Magnetic Actuators”, Journal of Chinese Society of Mechanical Engineering, Vol. 24(1), pp. 93-98, 2003.(EI)

68.      C.T. Pan, H. Yang*, S.-C. Shen, M.-C. Chou, and H.-P. Chou, “A Low-Temperature Wafer Bonding Technique using Patternable Materials”, Journal of Micromechanics And Microengineering, Vol.12, No.5, pp. 611-615, 2002. (NANOSCIENCE & NANOTECHNOLOGY [19/46=42.7%], I.F. 1.930) (EI, SCI; Impact factor=1.211) (SCI) [cited 54]

69.      S.C. Shen, C.T. Pan*, H.P. Chou, “Electromagnetic Optical Switch for Optical Network Communication”, Journal of Magnetism and Magnetic Materials, Vol. 239, No. 1-3, pp. 610-613, 2002.(PHYSICS, CONDENSED MATTER [20/61=32.8%], I.F. 1.704) (SCI) [cited 11]

70.      H. Yang*, C.T. Pan, and M.-C. Chou, “Ultra-Fine Machining Tool/Molds by LIGA Technology”, Journal of Micromechanics and Microengineering, Vol.11, No. 2, pp. 94-99, 2001. (NANOSCIENCE & NANOTECHNOLOGY [19/46=41.3%], I.F. 1.930) (SCI) [cited 46]

71.      S.C. Shen, C.T. Pan*, H.P. Chou, M.C. Chou, “Batch Assembly Micro Ball Lens Array for Si-Based Optical Coupling Platform in Free Space”, Optical Review, Optical Society of Japan, Vol. 8, No. 5, pp.373-377, 2001. (NANOSCIENCE & NANOTECHNOLOGY [43/64=67.2%], I.F. 0.683)(SCI) [cited 2]

72.      C.T. Pan*, H. Hocheng, “Evaluation of Anistropic Thermal Conductivity for Unidirectional Fiber-Reinforced Plastics in Laser Machining of Unidirectionally Fiber-Reinforced Plastics”, Composites Part A, pp.1657-1667, 2001. (SCI)

73.      C.T. Pan*, H.Yang, H.-J. Wang, and M.-C. Chou, “Behavior of the Developing Process for Ultra-Deep Microstructures”, Sensors and Materials, Vol.11, No. 6, pp. 339-347, MYU Tokyo, 1999.(INSTRUMENTS & INSTRUMENTATION [37/55=67.2%], I.F. 0.518) (SCI) [cited 5]

74.      Spur. G., Liebelt. S, H. Hocheng and C.T. Pan*, "The Extent of Laser-Induced Thermal Damage of Fiber Ud And Cross-Ply Composite Laminates", International Journal of Machine Tools & Manufacture, Vol. 39, No. 4, pp. 639-650, 1999. (ENGINEERING, MANUFACTURING [3/38=7.8%], I.F. 1.12)(SCI)

75.      H. Hocheng and C.T. Pan*, "The Effects of Cryogenic Surroundings on Thermal Induced Damage in Laser Grooving of Fiber-Reinforced Plastics", Journal of Machining Science and Technology, Vol. 3, pp. 77-90, 1999. (ENGINEERING, MANUFACTURING [3/38=7.8%], I.F. 1.12) (SCI)

76.      C.T. Pan, and. H. Hocheng*, "Prediction of Extent of Heat Affected Zone in Laser Grooving of Unidirectionally Fiber-Reinforced Plastics", Journal of Engineering Materials, Vol. 120, pp. 321-327, 1998. (SCI)

77.      C.T. Pan, and H. Hocheng*, "Prediction of Laser-Induced Thermal Damage of Fiber Mat and Fiber Matud-Reinforced Polymers", Journal of Materials Engineering and Performance, Vol. 7, No. 6, pp. 751-756, 1998. (MATERIALS SCIENCE, MULTIDISCIPLINARY [159/189=84.1%], I.F. 0.298) (SCI)

78.      C.T. Pan, and H. Hocheng*, “The Preliminary Study of Anisotropic Heat Affected Zone in Laser Grooving of Fiber Reinforced Composite Material”, J. Materials Processing Technology, Vol. 62, pp. 54-60, 1996. (MATERIALS SCIENCE, MULTIDISCIPLINARY [12/38=31.6%], I.F. 0.816) (SCI) [cited 7]

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