Photonics and Display Group

Liquid Crystal Display

Seok-Lyul Lee (Daniel Lee)

Director / Fellow at AUO

Email: daniel.lee@auo.com

Office: Room 286, CREOL

 

CREOL, College of Optics and Photonics,

University of Central Florida,

4000 Central Florida Blvd.

Orlando, Florida 32816-2700

 

 

Education:

·        M.S. in Polymer/Nano Science Technology, National Chonbuk University, Korea

·        Ph.D. in Photonics, National Yang Ming Chiao Tung University, Taiwan

 

Work Experiences:

-Development of design, process and material of LCD and micro-LED display device

·        2006~Present Director/Fellow at AUO

 

Honors & Awards:

·        Distinguished Paper Award, Display Week 2021, for the "9.4-inch 228 PPI Flexible Micro LED Display"

·        Fellow Award, Display Week 2018, for his contributions to the invention, product development, and commercialization of fringe field switching liquid crystal display devices

·        Special Recognition Award, Display Week 2012, for contributions to the invention, product development, and commercialization of fringe field switching liquid crystal display devices

Publications:

1.  "High-transmittance, wide viewing angle liquid crystal display controlled by fringe-field switching": S. H. Lee, S. L Lee, and H. Y. Kim, Asia Display '98, p.371-374 (1998).

2.  "Electro-optic characteristics and switching principle of a nematic liquid crystal cell controlled by fringe-field switching": S. H. Lee, S. L. Lee, andH. Y. Kim, Appl. Phys. Lett. 73(20), 2881-2883, 1998.

3.  "A Novel Wide-Viewing-Angle Technology: Ultra-Trans View": S. H. Lee, S.L Lee, H. Y. Kim, T. Y. Eom, SID'99, p.202-205 1999).

4.  "A High-Quality AM-LCD using Fringe-Field Switching Technology": S. H. Lee, H. Y. Kim, and S. L. Lee, IDW 99, p.191-194 (1999).

5.  “Fringe-field switching nematic liquid crystal display": S. H. Lee, S. L. Lee, and H. Y. Kim, The 6th Korean Conference on Semiconductors, p.593-594 (1999).

6.  “Electro-optic characteristics of fringe-field switching (FFS) mode depending on dielectric anisotropy of liquid crystal": S. H. Hong, T.Y. Eom, H. Y. Kim, S. L Lee, and S. H. Lee, Proc. of the 2�nd KLCC'99, p.97 - 100 (1999).

7.  "High Dynamic Range LCD with Pixel-level Local Dimming." Chen, Haiwei & Zhu, Ruidong & Li, Ming-Chun & Lee, Seok-Lyul & Wu, Shin-Tson. (2017). SID Symposium Digest of Technical Papers. 48. 890-893. 10.1002/sdtp.11771

8.  “Motion blur free LCD for high resolution virtual reality displays" Gou, Fangwang & Chen, Haiwei & Li, Ming - Chun & Lee, Seok-Lyul & Wu, Shin- Tson. (2018). Journal of the Society for Information Display. 26. 10.1002/jsid.662.

9.  "Ambient Light Excitation in Quantum - Dot - Converted MicroLED Displays." Gou, Fangwang & Tan, Guanjun & Lan, Yi-Fen & Lee, Seok-Lyul & Wu, Shin-Tson. (2020). SID Symposium Digest of Technical Papers. 51. 1174-1177. 10.1002/sdtp.14087.

10.    "9.4-inch 228-ppi flexible micro-LED display." Lee, S.-L, Cheng, C.-C., Liu, C.-J., Yeh, C.-N., & Lin, Y.-C. (2021). Journal of the Society for Information Display, 29 (5), 360-361.

11.    “Optically isotropic nano-size encapsulation of nematic liquid crystals with a high-filling factor� Seok-Lyul Lee, MinSu Kim, DaYeon Lee, Yi-Hsin Lin, Seung Hee Lee, Journal of Molecular Liquids, volume 359, 119254 (2022)

12.    "Investigation of a polarizer-free liquid crystal phase modulation via nanometer size encapsulation of nematic liquid crystals," Seok-Lyul Lee, Chang-Nien Mao, and Yi-Hsin Lin, Opt. Mater. Express 13, 3531-3542 (2023)

 

Useful Links:

Prof. S. T. Wu's Homepage, CREOL