蔡永傑副教授的著作列表 - Publication List of Wing-Kit Choi

Publication List of 蔡永傑 Wing-Kit Choi

Journal articles & book chapters:

  1. Wing-Kit Choi, Chih-Wei Hsu, Chia Hsiang Tung and Bo-Kai Tseng, “Effects of electrode structure and dielectric anisotropy on the performance of VA-FFS LC mode,” Optics Express, 27 (23), 34343-34358, Nov. 2019
  2. Jia-Lun Hsieh and Wing-Kit Choi, “Step-shaped electrode for Low-voltage and High-optical-efficiency Blue-Phase transflective Liquid Crystal Displays,” Liquid Crystals, 46(7), 1043-1051, 2019
  3. Bing-Han Chan and Wing-Kit Choi, “Three-dimensional corrugated electrode structure for low-voltage high-transmittance blue-phase liquid crystal displays,” Liquid Crystals, 46 (5), 806-815, 2019
  4. Boya Jin, Hongwen Ren and Wing-Kit Choi, “Dielectric liquid lens with chevron-patterned electrode,” Optics Express, 25 (26), Dec. 2017
  5. Tsung Han Tasi, Ming Yi Lin, Li Jen Hsiao, Wing Kit Choi and Hoang Yan Lin, “Narrow band amplified photoluminescence of amorphous silicon quantum dots via the coupling between localized surface plasmon and Fabry Perot cavity,” Optical Engineering, 55:2, 027104, 2016
  6. Tsung Han Tsai, Ming Yi Lin, Li Jen Hsiao, Wing Kit Choi and Hoang Yan Lin, “Localized surface plasmon-enhanced photoluminescence of amorphous silicon quantum dots through plasmonic subwavelength crossed metallic gratings,” Japanese Journal of Applied Physics, 15201, 2016
  7. Wing Kit Choi and Yan Min Li, “Fast response VA-PSLC with a Curing Voltage for wavelength tuning and Phase modulation Applications,” Journal of Molecular Crystals and Liquid Crystals, 613:1, 45-50, Jul. 2015
  8. Wing-Kit Choi, Shun-Ling Hou, Jyun-Yu Chen, Guo-Dung J. Su and Yan-Min Li, “Fast-response & polarization-independent optical shutter using nano-PDLC inside a Fabry-Perot cavity,” Journal of Molecular Crystals and Liquid Crystals, 612:1, 232-237, Jul. 2015
  9. Tsung-Han Tsai, Ming-Yi Lin, Wing-Kit Choi, and Hoang Yan Lin, “Plasmon-Enhanced Photoluminescence of an Amorphous Silicon Quantum Dot Light-Emitting Device by Localized Surface Plasmon Polaritons in Ag/SiO x: a-Si QDs/Ag Sandwich Nanostructures,” International Journal of Photoenergy, 501, 140617, 2015
  10. Ming-Yi Lin, Tsung-Han Tsai, Yu Ling Kang, Yu-Cheng Chen, Yi-Hsiang Huang, Yi-Jiun Chen,1 Xiang Fang, Hoang Yan Lin, Wing-Kit Choi, Lon A. Wang, Chung-Chih Wu and Si-Chen Lee, “Design and fabrication of birefringent nano-grating structure for circularly polarized light emission,” Optics Express, 22:7, 7388, Apr. 2014
  11. Shun-Ling Hou, Wing-Kit Choi, and Guo-Dung John Su, “Ultra-Bright Heads-Up Displays Using a Method of Projected Color Images by Combination of LEDs and Polymer-Dispersed Liquid Crystals,” Journal of Display Technology, 10:3, Mar. 2014
  12. M. Jiao, S. T. Wu, and W. K. Choi, “Fast Response single cell gap transflective liquid crystal displays,” J. Display Technology, 5, 83-85, Mar. 2009
  13. M. Jiao, Z. Ge, S. T. Wu, and W. K. Choi, “Submillisecond response liquid crystal modulators using dual field switching in a vertically aligned cell,” Appl. Phys. Lett., 92,, 111101, Mar. 2008
  14. JH Lee, XY Zhu, YH Lin, WK Choi, TC Lin, SH Hsu, HY Lin & ST Wu, “High ambient-contrast-ratio display using tandem reflective LCD & OLED,” Optics Express, vol.153, No. 23, pp. 9431-9438, Nov. 2005
  15. Y.H. Lin, H. Ren, K.H.F. Chiang, W.K. Choi, S. Gauza, X.Y. Zhu, S.T. Wu,, “Tunable-focus cylindrical liquid crystal lenses,” Japanese Journal of Applied Physics, Vol.44, No.1A,, pp. 243-244,, 2005
  16. X.Y. Zhu, W.K. Choi & S.T. Wu, “A Simple method of measuring cell gap of a reflective twisted-nematic liquid crystal display,” IEEE Trans. Electron Devices,, 49 (11), p.1863, Nov. 2002
  17. W.K. Choi, A.B. Davey, W.A. Crossland and T.D. Wilkinson, “Enhancement of SmA* Liquid Crystal Electroclinic Electro-Optic Effects using Fabry-Perot cavities at oblique incidence,” Ferroelectrics, 213, 257-267, 1998
  18. W.K. Choi, T.M. Coker, A.B. Davey and W.A. Crossland, “Enhancement of SmA* Liquid Crystal Electroclinic Electro-Optic Effects using Resonated Compound Variable Retarders,” Ferroelectrics, 213, 269-279, 1998
  19. T.M. Coker, W.K. Choi and W.A. Crossland, “Resonant Enhancement of low contrast electro-optic effects,” Optics Letters, 22(24), pp.1876-1878, Dec. 1997
  20. W.K. Choi, A.B. Davey, T.D. Wilkinson and W.A. Crossland, “Deformed Helix Ferroelectric Liquid Crystal Fabry-Perot etalons,” Molecular Crystals and Liquid Crystals, 304, pp. 329-337, 1997
  21. W.K. Choi, A.B. Davey and W.A. Crossland, “Use of Deformed Helix Ferroelectric Liquid Crystals in Fabry-Perot etalons,” Ferroelectrics, 181, pp.11-19, 1996

Conference & proceeding papers:

  1. Wing-Kit Choi, Bo-Kai Tseng and Chia-Hsiang Tung, “A new fast-response VA-FFS LC device using three-voltage design with improved transmission,” International Display Workshop (IDW 2024), Sapporo, Japan, Dec. 2024
  2. Shi-Rui Chen and Wing-Kit Choi, “Fast-Response FFS LC Device with Multi-rubbing Angle for VR Applications,” Display week 2024 - Society for Information Display (SID), 2075-2077, San Jose, US, Jun. 2024
  3. Wing-Kit Choi, Wei-Hao Chu and Yi-Cheng Hsieh, “Fast-response liquid crystal devices with virtual walls for VR/AR applications,” International Conference on Display Technology 2023 (SID tech. Digest), 182-184, Nanjing, China, Apr. 2023
  4. Bing-Han Chan and Wing-Kit Choi, “Low-voltage High-transmittance Blue-Phase Liquid Crystal Displays using Three Dimensional Corrugated Electrode Structure,” Display week 2019 - Society for Information Display (SID), 1791-1799, San Jose, US, May 2019
  5. Jia-Lun Hsieh and Wing-Kit Choi, “Low-voltage and High-optical-efficiency Blue-Phase Transflective Liquid Crystal Displays using Step-shaped Electrode,” Display week 2019 - Society for Information Display (SID), 1792-1795, San Jose, US, May 2019
  6. Wing-Kit Choi, Chia-Hsiang Tung and Bo-Kai Tseng, “ Fast-Response VA-FFS liquid crystal mode using 3D electrode design,” Society for Information Displays (SID Display week 2017), Los Angeles , US, May 2017
  7. Chi-Yu Hsieh, Chia-Hsiang Tung and Wing-Kit Choi, “ PolymerStabilized Blue-Phase Liquid Crystal Display using 3-level voltage design without protrusions,” Asian Conference on Liquid Crystals (ACLC) 2017, Tainan, Taiwan, Feb. 2017
  8. Chia-Hsiang Tung, Bo-Kai Tseng and Wing-Kit Choi, “ Fast-Response VA-FFS liquid crystal mode using a 3D electrode design,” Asian Conference on Liquid Crystals (ACLC) 2017, Tainan, Taiwan, Feb. 2017
  9. Jia-Lun Hsieh and Wing-Kit Choi, “ New design for Transflective Polymer Stabilized Blue Phase Liquid Crystal Display with low operation voltage and high transmission,” Asian Conference on Liquid Crystals (ACLC) 2017, Tainan, Taiwan, Feb. 2017
  10. Yu-Chuan Chang, Shih-Hsien Wei, Chia-Liang Chang and Wing-Kit Choi, “Polymer-Stabilized Blue-Phase Liquid Crystal Display using Distributed Floating Electrode,” Display week 2016 - Society for Information Display (SID), 1576-1578, San Francisco, US, May 2016
  11. Shih-Hsien Wei, Chia-Liang Chang, Yu-Chuan Chang and Wing-Kit Choi, “Polymer-Stabilized Blue-Phase Liquid Crystal Displays,” Display week 2016 - Society for Information Displays (SID), 1579-1581, San Francisco, US, May 2016
  12. Yu-Chuan Chang, Chia-Liang Chang, Shih-Hsien Wei and Wing-Kit Choi, “High transmission Polymer Stabilized Blue Phase Liquid Crystal Display using Distributed Floating electrode,” Optics and Photonics Taiwan- International Conference (OPTIC), Taiwan, Dec. 2015
  13. Shih-Hsien Wei, Chia-Liang Chang ,Yu-Chuan Chang and Wing-Kit Choi, “Polymer-Stabilized Blue-Phase Liquid Crystal Displays using interdigitated corrugated electrode with improved transmission,” Optics and Photonics Taiwan- International Conference (OPTIC), Taiwan, Oct. 2015
  14. Tsung-Han Tsai, Wing-Kit Choi and Hoang Yan Lin, “Localized Surface Plasmon-Enhanced Light Emitters based on Amorphous Silicon Quantum Dots through Plasmonic Subwavelength Metallic Crossed Gratings.,” Frontiers in Optics, Optical Society of America, San Jose. US, Oct. 2015
  15. Tsung-Han Tsai, Wing-Kit Choi and Hoang Yan Lin, “Narrow bandwidth and Amplified emission of Amorphous Silicon Quantum Dots through the coupling between Fabry-Pérot cavity and Localized Surface Plasmons Modes.,” Frontiers in Optics, Optical Society of America, San Jose, US, Oct. 2015
  16. Chih-Hao Hsu, Wing-Kit Choi and Lon A. Wang, “Feasibility study on fabricating an in-line wavelength tunable filter based on polymer-dispersed liquid crystal,” Optical MEMS and NanoPhotonics - International Conference (OMN), Israel, Jul. 2015
  17. Wing-Kit Choi, Yu-Chuan Chang, Chia-Liang Chang and Shih-Hsien Wei, “Effects of floating electrode on the electro-optic properties of Polymer-Stabilized Blue-Phase Liquid Crystal Displays,” International Ferroelectric Liquid Crystal Conference (FLC), Prague, Czech Republic, Jun. 2015
  18. Wing-Kit Choi, Shih-Hsien Wei, Chia-Liang Chang, Yu-Chuan Chang and Chia-Hsiang Tung, “Polymer-Stabilized Blue-Phase Liquid Crystal Displays with low operation voltage,” International Ferroelectric Liquid Crystal Conference (FLC), Prague, Czech Republic, Jun. 2015
  19. Chih-Hao Hsu, Wing-Kit Choi and Lon A. Wang, “A novel fabrication of fiber Bragg grating in hollow-core fiber with holographic polymer-dispersed liquid crystal,” The International Conference on Photonics and Optical Engineering (icPOE), Xian, China, Oct. 2014
  20. Wing Kit Choi and Yan Min Li, “Fast response wavelength tunable filter using VA-PSLC with a Curing Voltage,” International Liquid Crystal Conference (ILCC), Dublin, Ireland, Jun. 2014
  21. Wing-Kit Choi, Shun-Ling Hou, Jyun-Yu Chen, Guo-Dung J. Su and Yan-Min Li, “Fast-response & polarization-independent optical shutter using nano-PDLC inside a Fabry-Perot cavity,” International Liquid Crystal Conference (ILCC), Dublin, Ireland, Jun. 2014
  22. Yan Min Li and Wing Kit Choi, “Fast response wavelength tunable filter using VA-PSLC with a Curing Voltage,” Taiwan Liquid Crystal Conference, Taiwan, Dec. 2013
  23. Shun-Ling Hou, Jyun-Yu Chen, Yin-Men Li, Guo-Dung J. Su and Wing-Kit Choi, “Fast-response & polarization-independent optical shutter using nano-PDLC inside a Fabry-Perot cavity,” Taiwan Liquid Crystal Conference, Taiwan, Dec. 2013
  24. Shun-Ling Hou, Wing-Kit Choi and Guo-Dung J. Su, “High Efficiency Polymer Dispersed Liquid Crystal for Ultra-Bright Projected Image,” SPIE Optics and Photonics, San Diego, US, Aug. 2013
  25. Shun-Ling Hou, Yu-Hsiang Cheng, Mu-Hao Wang, Wing-Kit Choi, Guo-Dung Su, “See-through display by Polymer Dispersed Liquid Crystal on waveguide structure,” Optics and Photonics Taiwan - Internation Conference (OPTIC), Taipei, Taiwan, Dec. 2012
  26. Mu-Hao Wang, Wing-Kit Choi and Guo-Dung Su, “Transparent Image Generator using Vertically-Aligned Polymer-Stabilized Liquid Crystal for See-Through Display Applications,” SPIE Optics + Photonics, San Diego, US, Aug. 2012
  27. M. Jiao, S. T. Wu, and W. K. Choi, “A fast response single cell gap transflective liquid crystal display with high optical efficiency,” International Display Research Conference, 11-14, Orlando, US, 2008
  28. W.K Choi, R.C. Lee, C.C. Tasi & S.T. Wu, “Single-cell-gap Transflective TFT-LCD using Partial Switching,” International Display Workshops (IDW, Otsu, Japan, Dec. 2006
  29. W.K. Choi, Y.H. Wu, M.L. Lee, K.H. Chen & Y.F. Luo, “Wide-viewing-angle single-cell-gapTransflective TFT-LCD based on PVA LC mode,” International Display Workshops (IDW"06), Otsu, Japan, Dec. 2006
  30. JH Lee, XY Zhu, YH Lin,Z Ge, WK Choi, KY Chen, MK Wei, & ST Wu, “Tandem OLED and Reflective LCD with a Microlens Array,” SID Tech. Digest, San Francisco, Jun. 2006
  31. X.Y. Zhu, W.K. Choi & S.T. Wu, “Cell gap measurement of twisted nematic LCoS devices,” Proceedings of MicroDisplays, Colorado, US, Dec. 2002
  32. W.K. Choi, “Reflective liquid-crystal cell-gap measurement using input-polarization-angle dependence,” SID Tech. Digest, Vol. 40, p.530, Boston, US, May 2002
  33. W.K. Choi, A.B. Davey, W.A. Crossland and T.D. Wilkinson, “Enhancement of SmA* Liquid Crystal Electroclinic Electro-Optic Effects using Fabry-Perot cavities at oblique incidence,” International Ferroelectric liquid crystal (FLC) conference, Brest, France, Jun. 1997
  34. W.K. Choi, T.M. Coker, A.B. Davey and W.A. Crossland, “Enhancement of SmA* Liquid Crystal Electroclinic Electro-Optic Effects using Resonated Compound Variable Retarders,” International Ferroelectric Liquid Crystal (FLC) conference, Brest, France, Jun. 1997
  35. W.K. Choi, A.B. Davey, T.D. Wilkinson and W.A. Crossland, “Low voltage Deformed Helix Ferroelectric Liquid Crystal Fabry-Perot etalons,” International Liquid Crystals conference (ILCC), Kent State University, Ohio, USA, Jun. 1996
  36. W.K. Choi, A.B. Davey and W.A. Crossland,, “Use of Deformed Helix Ferroelectric Liquid Crystals in Fabry-Perot etalons,” British Liquid Crystals conference, University of Southhampton, UK, Mar. 1996
  37. W.K. Choi, A.B. Davey and W.A. Crossland, “Use of Deformed Helix Ferroelectric Liquid Crystals (DHFLCs) in Fabry-Perot etalons,” International Ferroelectric liquid crystal (FLC) conference, Cambridge, UK, Jul. 1995

Patents:

  1. W.K. Choi & S.T. Wu, “High-speed & wide-viewing-angle liquid crystal displays,” US Patent US 7995181B2, Aug. 2011
  2. W.K. Choi & S.T. Wu, “Fast response liquid crystal mode,” US Patent US7929097, Apr. 2011
  3. WK Choi & ST Wu, “Fast Response liquid crystal Mode,” US 7369204 B1, May 2008
  4. WK Choi & ST Wu, “Fast response liquid crystal mode,” US 7298445 B1, Nov. 2007
  5. W.K. Choi & S.T. Wu, “Transflective liquid crystal display with Partial Switching,” US Patent US 7,015,997,B2, Mar. 2006
  6. W.K. Choi & S.T. Wu, “High Brightness Twisted-Nematic Transflective liquid crystal displays,” US Patent US 6,989,878 B2, Jan. 2006
  7. W.K. Choi, “Method of measuring thickness of cell gap of reflective type LCD,” US 6,538,754 B2, Mar. 2003
  8. W.K Choi & S.T. Wu, “High speed Optical Phased Arrays,” Internally filed, 2003
  9. W.K. Choi, “Reflective LCD cell gap measurement,” Taiwan Patent TW 418316, Jan. 2001
  10. W.K. Choi, A.B. Davey and W.A. Crossland, “High speed liquid crystal modulators,” UK Patent Application, 1997