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張晉愷

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助理教授
姓名 張晉愷 (Chin-Kai Chang)
組別 固體力學組
教授室 91615室
分機 62179
傳真機
電子信箱 ckchang@gs.ncku.edu.tw
個人網站
學歷
  1. Ph.D., Institute of Applied Mechanics, National Taiwan University, 2009
  2. B.S., Mechanical Engineering, National Taiwan University, 2004
經歷
  1. Assistant Professor, Department of Mechanical Engineering, National Cheng Kung University, Taiwan. 2020/02~
  2. Technical Lead, Nano Patterning Technology Division, Taiwan Semiconductor Manufacturing Company, 2018/09~2020/02
  3. Principle Engineer, Nano Patterning Technology Division, Taiwan Semiconductor Manufacturing Company, 2013/09~2018/09
  4. Visiting scholar, Functional Materials and Devices, Department of Chemical Engineering and Chemistry, Eindhoven University of Technology, Netherlands, 2011/09~2012/04
  5. Researcher, Material and Chemical Research Laboratories, Industrial Technology Research Institute, 2009/09~2013/09
專長
  1. 奈米光學 (Nano-Optics)
  2. 微奈米製造技術 (Micro/Nano Fabrication Technology)
  3. 光學機構系統 (Opto-Mechanical Systems)
教師研究介紹
服務
榮譽
專利
1. 李世光, 林鼎晸, 鄭琮達, 張晉愷, 陳志豪, 葉超雄, 張祐嘉 “光學頭” ROC Patent No. 200848785 (Dec. 16, 2008).
2. C. K. Lee, D. Z. Lin, T. D. Cheng, C. K. Chang, Z. H. Chen, C. S. Yeh, and Y. C. Chang,“Optical head,” US Patent No. 7957250 (Jun. 7, 2011).
3. 李世光, 葉吉田, 林鼎晸, 鄭琮達, 張晉愷 "用於雷射加工之光學蝕刻裝置" ROC Patent No. 201106106 (Feb. 16, 2011).
4. 郭惠隆, 彭美枝, 謝依萍, 張晉愷 "寬波域膽固醇液晶薄膜、其製法、包含其之偏光元件、及包含其之高光效率液晶顯示器" ROC Patent No. 201227006 (Jul. 1, 2012).
5. 張晉愷, 郭惠隆 "液晶氣體感測單元及其應用" ROC Patent No. 201313881 (Apr. 1, 2013).
6. C. K. Lee, C. K. Chang, K. T. Chen, H. L. Kuo, and W. J. Wu, “Actuator and method for using the same,”US Patent No. 8531082 (Sep. 10, 2013 ).
7. C. K. Chang, and H. L. Kuo, “Liquid crystal gas sensor cell and the use thereof,”US Patent No. 8734723 (May. 27, 2014 ).
8. H. L. Kuo, M. C. Peng,Y. P. Hsieh, and C. K. Chang, “Broadband cholesteric liquid crystal film, method for fabricating the same, polarization device, and high light efficiency liquid crystal display employing the same,” US Patent No. 8947620 (Feb. 3, 2015 ).
著作

Journal paper (* corresponding author)

  1. C. K. Lee*, C. L. Lin, D. Z. Lin, T. D. Cheng, C. K. Chang, L. B. Yu, and C. S. Yeh, “Developing a nanowriter system: Simulation and experimental set-up of a plasmonic-based lens design,” Materials Science Forum 505 (2006).
  2. D. Z. Lin, C. K. Chang, Y. C. Chen, D. L. Yang, M. W. Lin, J. T. Yeh, J. M. Liu, C. H. Kuan, C. S. Yeh, and C. K. Lee*, “Beaming light from a subwavelength metal slit surrounded by dielectric surface gratings,” Optics Express 14, 3503 (2006).
  3. C. K. Chang, D. Z. Lin, C. S. Yeh, C. K. Lee*, Y. C. Chang, M. W. Lin, J. T. Yeh, and J. M. Liu,“Similarities and differences for light-induced surface plasmons in one- and two-dimensional symmetrical metallic nanostructures,” Optics Letters 31, 2341 (2006). [selected for the August 14, 2006 issue of Virtual Journal of Nanoscale Science & Technology]
  4. C. K. Chang, D. Z. Lin, C. S. Yeh, C. K. Lee*, Y. C. Chang, M. W. Lin, J. T. Yeh, and J. M. Liu, “Experimental analysis of surface plasmon behavior in metallic circular slits,” Applied Physics Letters 90, 061113 (2007).
  5. D. Z. Lin, T. D. Cheng, C. K. Chang, J. T. Yeh, J. M. Liu, C. S. Yeh, and C. K. Lee*, “Directional light beaming control by a subwavelength asymmetric surface structure,” Optics Express 15, 2585 (2007).
  6. C. K. Chang, D. Z. Lin, Y. C. Chang, M. W. Lin, J. T. Yeh, J. M. Liu, C. S. Yeh, and C. K. Lee*, “Enhancing intensity of emitted light from a ring by incorporating a circular groove,” Optics Express 15, 15209 (2007)
  7. D. Z. Lin, Z. H. Chen, C. K. Chang, T. D. Cheng, C. S. Yeh, and C. K. Lee*, “Subwavelength Nondiffraction Beam Generated by a Plasmonic Lens,” Applied Physics Letters 92, 233106 (2008).
  8. C. K. Lee*, T. D. Cheng, S. S. Lee, and C. K. Chang, “Opto-mechatronic configurations to maximize dynamic range and optimize resolution of optical instruments,” Optical Review 16, 133 (2009)
  9. C. K. Chang, C. S. Yeh, C. K. Lee*, M. W. Lai, J. T. Yeh, and J. M. Liu, “Focusing properties of microspheres containing multiconcentric metallic rings,” Applied Physics Letters 95, 053112 (2009).
  10. C. K. Chang, Y. Y. Yu, M. W. Lai, J. T. Yeh, J. M. Liu, C. S. Yeh, and C. K. Lee*, “Recording Bessel-like beam shapes generated by plasmonics lens,” Optics Express 17, 13946 (2009).
  11. C. K. Chang*, H. L. Kuo, and M. C. Peng, “Fabrication and characterization of gratings based on thermal shrinkable reactive cholesteric mesogens,” Optics Letters 35, 2439 (2010).
  12. K. T. Chen, C. K. Chang, H. L. Kuo, and C. K. Lee*, “Design and fabrication of a piezoelectric mode 2 sensor based on optical modulated liquid crystal and spiropyran,” Smart Materials and Structures 20, 025018 (2011).
  13. K. T. Chen, C. K. Chang, H. L. Kuo, and C. K. Lee*, “Optically defined modal sensors incorporating spiropyran-doped liquid crystals with piezoelectric sensors,” Sensors 11, 1810 (2011).
  14. C. K. Chang*, H. L. Kuo, K. T. Tang, and S. W. Chiu, “Optical detection of organic vapors using cholesteric liquid crystals,” Applied physics letters 99, 073504 (2011).
  15. Y. Y. Yu, C. K. Chang, M. W. Lai, L. S. Huang, and C. K. Lee*, “Laser ablation of silicon using a Bessel-like beam generated by a subwavelength annular aperture structure,” Applied Optics 55, 6384 (2011).
  16. C. K. Chang*, S. W. Chiu, H. L. Kuo, and K. T. Tang, “Cholesteric liquid crystal-carbon nanotube hybrid architectures for gas detection,” Applied physics letters 100, 043501 (2012).
  17. C. K. Chang*, C. W. M. Bastiaansen, D. J. Broer, and H. L. Kuo, “Alcohol-responsive hydrogen-bonded cholesteric liquid crystal networks,” Advanced Functional Materials 22, 2855(2012).
  18. C. K. Chang*, C. W. M. Bastiaansen, D. J. Broer, and H. L. Kuo, “Discrimination of alcohol molecules using hydrogen-bridged cholesteric polymer networks,” Macromolecules 45, 4550(2012).

Confernece Paper

  1.  C. K. Lee, C. L. Lin, D. Z. Lin, T. D. Cheng, C. K. Chang, L. B. Yu, and C. S.Yeh, “Developing a Nanowriter System: Simulation and Experimental Set-up of a Plasmonic-based Lens Design,“ Proceedings of 2005 International Conference on Advanced Manufacture (ICAM 2005), I009, Taipei, Taiwan (Nov. 28-Dec. 2, 2005).
  2.  C. K. Chang, D. Z. Lin, C. S. Yeh, C. K. Lee, Y. C. Chang, M. W. Lin, J. T. Yeh, and J. M. Liu, “Surface Plasmon Interaction between a Circular Groove and a Ring,” The 3rd  International Conference on Surface Plasmon Photonics (SPP3), paper no. TuP8, Dijon, Burgundy, France (June 17-22, 2007).
  3. D. Z. Lin, C. H. Chen, C. K. Chang, C. K. Lee, J. T. Yeh, and J. M. Liu, “Near-field and Far-field Optical Properties of a Single Subwavelength Annular Aperture on Silver and Tungsten Film,” The 3rd International Conference on Surface Plasmon Photonics (SPP3), paper no. ThuO15, Dijon, Burgundy, France (June 17-22, 2007).
  4. C. K. Chang, C. S. Yeh, and C. K. Lee, “Multi-scale plasmonics lens,” The 4rd  International Conference on Surface Plasmon Photonics (SPP4), paper no. P-Tue-009-B, Amsterdam, Netherlands (June 21-26, 2009).
  5. Y. Y. Yu, C. K. Chang, L. S. Huang, C. S. Yeh, and C. K. Lee, “Fabrication of high aspect ratio structure by using plasmonics lens,” The 4rd International Conference on Surface Plasmon Photonics (SPP4), paper no. P-Tue-017-A, Amsterdam, Netherlands (June 21-26, 2009).
  6. Y. Y. Yu, C. K. Chang, M. W. Lai, L. S. Huang, and C. K. Lee, “Ablation of silicon by focusing a femtosecond laser through a subwavelength annular aperture structure,” Proc. SPIE 7789, 77890M (2010).
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