<2009> Publications

1. D. Ziobro, et al, "Mesomorphic and dielectric properties of esters useful for formulation of nematic mixtures for dual frequency addressing system"
   Opto-Electronics Rev. 17, 16-19 (Jan. 2009).

2. J. Dziaduszek, R. Dabrowski, A. Ziolek, S. Gauza, and S. T. Wu
   "Syntheses and mesomorphic properties of laterally fluorinated phenyl isothiocyanatotolanes and their high birefringent mixtures", Opto-Electronics Rev. 17, 20-24 (Jan. 2009).

3. L. Rao, S. Gauza, and S. T. Wu
   "Low temperature effects on the response time of liquid crystal displays",  
   Appl. Phys. Lett. 94, 071112 (Feb. 16, 2009).

4. L. Scolari, S. Gauza, H. Xianyu, L. Zhai, L. Eskildsen, T. T. Alkeskjold,  S. T. Wu, and A. Bjarklev,
   "Frequency tunability of solid-core photonic crystal fibers filled with nanoparticle-doped liquid crystals",  
   Optics Express 17, 3754-3764 (Feb. 25, 2009).

5. C. C. Tsai and S. T. Wu
   "Efficient linearly polarized lamp for liquid crystal displays",
   J. Display Technology 5, 6-9 (March 2009).

6. M. Jiao, S. T. Wu, and W. K. Choi,
   "Fast-response single cell gap transflective liquid crystal displays",  
   J. Display Technology 5, 83-85 (March 2009).

7. Z. Ge, S. Gauza, M. Jiao, H. Xianyu, and S. T. Wu
   "Electro-optics of polymer-stabilized blue phase liquid crystal displays",  
   Appl. Phys. Lett. 94, 101104 (March 10, 2009).

8. M. Jiao, S. Gauza, Y. Li, J. Yan, S. T. Wu, and T. Chiba
   "Negative A-plates for broadband wide-view liquid crystal displays",  
   Appl. Phys. Lett. 94, 101107 (March 10, 2009).

9. C. Y. Chang, K. W.  Ho, C. S. Hsu, C. H. Lin, S. Gauza, and S. T. Wu,
   "Synthesis and mesomorphic properties of a-methylstilbene-based liquid crystals",  
   Liq. Cryst. 36, 425-433 (April 2009).

10. M. Jiao, Z. Ge, and S. T. Wu,
    "Wide-view MVA-LCDs with an achromatic dark state",  
    J. Display Technology 5, 141-146 (May, 2009).

11. Y. J. Lin, K. M. Chen, and S. T. Wu,
    “Broadband polarization-independent beam steering using dielectrophoresis-tilted prism”,
    Opt. Express 17, 8651-8656 (May 11, 2009).

12. S. Xu, Y. J. Lin, and S. T. Wu,
    “Dielectric liquid microlens with well-shaped electrode",
    Opt. Express 17, 10499-10505 (June 22, 2009).

13. H. Ren and S. T. Wu,
    “Polarization independent beam fanning using a multi-domain liquid crystal cell",
    Opt. Express 17, 11530-11536 (July 6, 2009).

14. S. H. Lee, S. M. Kim, and S. T. Wu,
    “Emerging vertical alignment liquid crystal technology associated with surface modification using UV curable monomer”,
    (Review paper) J. SID 17, 551-559 (July, 2009).

15. Z. Ge, X. Zhu, T. X. Wu, S. T. Wu, W. Y. Li, and C. K. Wei,
    “Switchable transmissive and reflective liquid crystal display using a multi-domain vertical alignment”,
    J. SID 17, 561-566 (July, 2009).

16. Z. Ge, L. Rao, S. Gauza, and S. T. Wu,
    “Modeling of blue phase liquid crystal displays”,
    J. Display Technology 5, 250-256 (July 2009).

17. H. Xianyu, S. T. Wu, and C. L. Lin,
    "Dual frequency liquid crystals: A review",  
    (Invited article) Liq. Cryst. 36, 717-726 (June-July 2009).

18. Y. Li, Z. Ge, and S. T. Wu,
    "A simple transflective LCD for mobile applications",  
    J. Display Technology 5, 319-322 (August 2009).

19. M. Jiao, Z. Ge, and S. T. Wu,
    “Broadband wide-view LCDs with small color shift”,
    J. Display Technology 5, 331-334 (August 2009).

20. Y. Li, T. X. Wu, and S. T. Wu,
    "Design optimization of reflective polarizers for LCD backlight recycling",  
    J. Display Technology 5, 335-340 (August 2009).

21. S. Gauza, A. Parish, S. T. Wu, A. Spaldo, and R. Dabrowski,
    "Fast switching in the vicinity of smectic-to-nematic phase transition in high birefringence isothiocyanate mixtures,"
    Jpn. J. Appl. Phys. 48, 081604 (August, 2009).

22. Q. Song, S. Gauza, J. Sun, S. T. Wu, and X. Liang,
    "Diluters' effects on high Dn and low viscosity negative De terphenyl liquid crystals,"
    Liq. Cryst. 36, 865-872 (Aug. 2009).

23. S. Xu, H. Ren, Y. J. Lin, M. G. Moharam, S. T. Wu, and N. Tabiryan
    “Adaptive liquid lens actuated by photo-polymer, "
    Opt. Express 17, 17590-17595 (Sept. 28, 2009).

24. S. Gauza, P. Kula, X. Liang, S. T. Wu, and R. Dabrowski,
    "High birefringence and low viscosity liquid crystals with negative dielectric anisotropy,"
    Mol. Cryst. Liq. Cryst. 509, 47-59 (Sept. 2009).

25. Y. Li, T. X. Wu, and S. T. Wu,
    "A broadband wide-incident-angle reflective polarization converter",  
    J. SID 17, 849-852 (Oct. 2009).

26. K. M. Chen, H. Ren, and S. T. Wu,
    "PDLC-based VOA with a small polarization dependent loss",  
    Opt. Commun. 282, 4374-4377 (Nov. 15, 2009).

27. M. Kim, M. S. Kim, B. G. Kang, M. K. Kim, S. Yoon, S. H. Lee, Z. Ge, L. Rao, S. Gauza and S. T. Wu,
     “Wall-shaped electrodes for reducing the operation voltage of polymer-stabilized blue phase liquid crystal displays,”
    J. Phys. D: Appl. Phys. 42, 235502 (Nov. 2009).

28. T. L. Chiu, H. Xianyu, Z. Ge, J. H. Lee, K. C. Liu, and S. T. Wu,
    "Transflective device with a transparent organic light-emitting diode and a reflective liquid-crystal device,"   
    J. SID 17, 1009-1013 (Dec. 2009).

29. L. Rao, Z. Ge, S. T. Wu, and S. H. Lee
    "Low voltage blue-phase liquid crystal displays,"   
    Appl. Phys. Lett. 95, 231101 (Dec. 7, 2009).

30. H. Ren, S. H. Lee, and S. T. Wu
    "Reconfigurable liquid crystal droplets using a dielectric force,"
    Appl. Phys. Lett. 95, 241108 (Dec. 21, 2009).

31. H. Ren, D. Ren, and S. T. Wu
    "A new method for fabricating high density and large aperture ratio liquid microlens array,"
    Opt. Express 17, 24183-24188 (Dec. 21, 2009).

32. J. Sun, H. Xianyu, S. Gauza, and S. T. Wu,
    "High birefringence phenyl-tolane positive compounds for dual frequency liquid crystals",  
    Liq. Cryst. 36, 1401-1408 (Dec. 2009).

<Conference Proceedings> (SID Symposium Technical Digest 2009)

1.  29.2: Switchable Transmissive and Reflective LCD for Mobile Displays (pp. 399-403)

2.  37.3: Smart Transflective Display Integrated with PDLC and OPV-Embedded-OLED  (pp. 530-533)

3.  39.4L: Late-News Paper: Negative A-Plates Using Stretched Polystyrene  (pp. 590-593)

4.  45.4: Invited Paper: Enhancing the Energy Efficiency of TFT-LCDs  (pp. 677-680)

5.  59.1: Development of Near Zero Optical Retardation Film from Cyclic Block Copolymers  (Page 881)

6. 66.1: High Birefringence and Negative Dielectric Anisotropy Liquid Crystal Mixtures for Vertical Alignment Applications  (pp. 992-995)

7.  66.2: Effects of Diluters on High Δn and Low Viscosity Negative Δε Liquid Crystals  (pp. 996-999)

8.  66.3: Low-Temperature Effect on the Liquid-Crystal Response Time of Mobile Displays  (pp. 1000-1003)

9.  P-114: Achromatic Dark State of MVA-LCDs with a Negative C-Plate and a Biaxial Film  (pp. 1555-1558)

10. P-129: Study on Electro-Optic Characteristics According to Length between Pixel Electrodes in the Fringe and In-Plane Field Switching Mode  (pp. 1604-1607)

11. P-142: A Simple Transflective LCD for Mobile Display Applications  (pp. 1655-1657)

<Patents>
 

1.  Q. Hong, R. Lu, T. X. Wu, and S. T. Wu, "Head mounted display with eye accommodation having 3-D image producing system consisting of, for each eye, one single planar display screen, one single planar tunable focus LC micro-lens array, one single planar black mask and bias lens",
U.S. Patent 7,486,341 (Feb. 3, 2009).

2. X. Zhu and S. T. Wu, “General film compensated reflective LCD having LC layer with middle layer satisfying a predetermined relationship between phase retardation and half residual phase depending on an external electric field”, U. S. Patent 7,508,472 (March 24, 2009).

3.  R. Lu, S. T. Wu, and Q. Hong, “Multi-domain in-plane switching liquid crystal displays with interleaved common and pixel chevron-shaped electrodes in both horizontal and vertical directions to divide electrode structure into two regions”,
U. S. Patent 7,538,844 (May 26, 2009).

4.  X. Zhu and S. T. Wu, "Multi-film compensated liquid crystal display with initial homogeneous alignment",
U. S. Patent 7,557,881 (July 7, 2009).

5.  J. H. Lee, S. T. Wu, W. Y. Li, and C. K. Wei, "Liquid crystal display",
U. S. Patent 7,557,897 (July 7, 2009).

6.  C. C. Tsai, S. T. Wu, W. Y. Li, and C. K. Wei, "Wide-angle and broadband polarization converter",
U. S. Patent 7,583,439 (Sept. 1, 2009).

7.  Z. Ge, T. X. Wu, S. T. Wu, W. Y. Li, and C. K. Wei, "Wide viewing angle transflective liquid crystal display",
U. S. Patent 7,589,808 (Sept. 15, 2009).

8.  R. Lu, S. H. Lee, S. T. Wu, W. Y. Li, and C. K. Wei, “Multi-domain vertical alignment liquid crystal displays with improved angular dependent gamma curves”, U.S. patent 7,605,897 (Oct. 20, 2009).

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