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K I f\ s***rK*
JL\i 111 mud society SIDSOCIETY FOR INFORMATION DISPLAY
S0077th International Meeting on Information Display
Digest of Technical Papers of 7th IMID
Volume 7P Book I
August 27-31,2007
ISSN 1738-7558
Publisher: The Korean Information Display Society
10F, The Korean Science and Technology Bldg. 635-4
Yeogsam-dong, Kangnam-gu, Seoul, Korea 135-703
Tel: 82-2-563-7962, Website : www.k-ids.or.kr
TIB/UB Hannover
133 240 290
Table of Contents
Keynote Address
01 Liquid Crystals-A Key Component in LCDs-—3
Walter Zywottek(Merck KGaA, Germany)
02 Future Trends in Information Displays 4
Hee-Gook Lee(LG Electronics Inc., Korea)
1. Crystallization Technologies
1-1 [Invited] Excimer Laser-induced Crystallization
of Si Films for Manufacturing LTPS TFT-based
Displays 7
U. J. Chung, A. B. Limanov, P. C. van der Wilt, A.
M. Chitn, and James S. Im(Columbia Univ., USA)
1-2 [Invited] SLS(Sequential Lateral Solidification)
Technology for High End Mobile Applications— 8
Myung-Koo Kang(Samsung Electronics, Co., Ltd.,
Korea), HyunJae Kim(Yonsei Univ., Korea),
ChiWoo Kim(Samsung Electronics, Co., Ltd.,
Korea), and HyungGuel Kim(Samsung Electronics,
Co., Ltd., Korea)
1-3 Recent Advances in Excimer-laser-based
Crystallization for Active-Matrix Displays 12
Brandon A. Turk(Coherent, Inc., USA), Ludolf
Herbst, Frank Simon, and Rainer Paetzel(Coherent,
GmbH, Germany)
1-4 The Characterization of Poly-Si Thin Film
Transistor Crystallized by a New Alignment SLS
Process 16
S. J, Lee, J. Y. Yang, K. S. Hwang, M. S. Yang, and
I. B. Kang(LG. Phillips LCD Co., Ltd., Korea)
2. PDP Discharge Physics
2-1 [Invited] Understanding the Physics of Plasma
Display Addressing 23
Vladimir P. Nagorny(Mattson Tech., USA)
2-2 Analysis of the Luminous Efficacy Improvementin Full HD ac Plasma Display Panel 29
Hyun Sook Bae and KrWoong Whang(Seoul Nat'l
Univ., Korea)
2-3 Numerical Analysis of the Striation Phenomena
in an ac Plasma Display Panel using Energy
Fluid Model 33
Hyun Sook Bae and K-Woong Whang(Seoul Nat'l
Univ., Korea)
3. AMOLED TV
3-1 [Invited] Large-Sized AMOLED for
TV Application 39
Changwoong Chu, Jinkoo Cluing, Dongwon Lee,
Jaekook Ha, Junho Choi, Sungsoo Lee, Joo-Hyeon
Lee, Sangpil Lee, and Sungtae Shin(SamsungElectronics Co., Ltd., Korea)
3-2 Method to Enhance Color Gamut up to 89 % in
Bottom Emission Active-Matrix Organic Light
Emitting Device 43
Hwa Kyung Kim, Hong Seok Choi, Dong Hee Yoo,
Woo Chan Kim, Jong Geun Yoon, and Joong Whan
Yang(LG Electronics Inc., Korea)
3-3 Using Net Power Control for AMOLED TV 47
Alexander Arkhipov, Baek-Woon Lee, Kyongtae
Park, Si-duk Sung, Sungtae Shin(Samsung
Electronics Co., Ltd., Korea), and Kyuhna
Chung(Cheil Industries Inc., Korea)
3-4 Inverted OLED Structure for 3.5 Inch Full Color
AMOLED Display on a-Si TFT Backplane 51
Jae Hee Park, Jae Young Park, Kwang Jo Hwang,
Hee Dong Choi, Noli Hoon Myung, Seok Jong Lee,
Seung Chul Park(LG. Phillips LCD Co., Ltd.,
Korea), Jung Bum Kim, Yun Hye Hahm, Jeoung
Kwen Noh, Jung Hyoung Lee, Jong Seok Kim, and
Min Soo Kang(LG Chem., Ltd., Korea)
U. Flexible AMOLED
4-1 [Invited] Flexible Display Roadmap and the
Market Outlook 57
Barry Young(Displaysearch, USA)
4-2 [Invited] Analysis of Low Power Consumption
Table of Contents
AMOLED Displays on Flexible Stainless Steel
Substrates 58
Mick Hack, Richard Hewitt, Ray Ma, Julie J.
Brown(Universal Display Corp., USA), Jae Won
Choi, Jun Hyuk Cheon, Se Hwan Kim, and Jin
Jang(Kyung Hee Univ., Korea)
4-3 [Invited] Development of Flexible 3.5" QCIF(176
X144 pixels) OTFT Driven OLED : Integration
Technologies Compatible with Normal
Semiconductor Processes 62
Seung-Youl Kang, Seong Deok Ahn, Ji-Young Oh,
Gi-Hyun Kim, Jae Bon Koo, In-Kyu You, Chul-Am
Kim, Chi-Sun Hwang, Sang-Hee Ko Park, Yong Suk
Yang, Sung Mook Chung, Jeong-Ik Lee, Hye Yong
Chu, and Kyung Soo Suh(ETRI, Korea)
4-4 All-Printed Flexible OLEDs 66
Maaninen Arto, Tuomikoski Markus, Valimaki
Marja, and Maaninen Tiina(VTT TechnologicalResearch Center ofFinland, Finland)
5. Optical Films for LCD Application
5-1 [Invited] Flexible Liquid Crystal Film using
Continuous Process 73
Chi-Chang Liao, Hsing-Lung Wang, Kang-Hung
Liu, Ru-De Chen, Chih-Yuan Chang, Shie-Chang
Jeng, Yan-Rung Lin(ITRI, Taiwan), Kevin Lu, Rick
Chang, and Jerry Chen(Taiflex Scientific Co., Ltd.,
Taiwan)
5-2 [Invited] Films for Widening the Viewing Angle
of LCDs 76
Hiroyuki Mori(FUJIFlLM Co., Japan)
5-3 Adjustable Pretilt Angle of Liquid Crystal
Alignment Materials 80
Song-Shiang Lin, Chein-Dhau Lee(lTRI, Taiwan),
Ya-Ting Su, and Yu-Der LeefNat'l Tsing Hua Univ.,
Taiwan)
6. Advanced Manufacturing Equipment
6-1 [Invited] Challenges for Large Area Processing
Equipment for TFT-LCD Manufacturing 85
Tak Tanaka(AKT, USA)
6-2 [Invited] Atmospheric Metal Doping System and
Application for Poly-Si Backplane 87
D. H. Shin, J. M. Lee, S. K. Lee, and H. J. Kim
(Viatron Technologies Inc., Korea)
6-3 In-Line Manufacturing Tool using Linear Belt
Source Evaporation for Large Size Lighting
OLED and Flexible OLED 91
Chung Hun Hwang(OLEDON Co., Ltd., Korea)
6-4 Large Area Flicker Metric for
Display System 95
Byung Hyuk Shin, Jaeho Oh, Hyoungsik Nam, and
Nam Deog Kim(Samsung Electronics Co., Ltd.,
Korea)
7. Optical Properties of LCs and
Photonic Applications
7-1 [Invited] Advanced Optical Configuration for
Transmissive and Reflective Mode in the
In-Plane Switching LC Cell 101
Kyung-Mi Kim and Gi-Dong Lee(Dong-A Univ.,
Korea)
7-2 [Invited] Chiral Liquid Crystals in Photonic
Device Applications 105
Helen F. Gleeson, Hyung-Guen Yoon, and Nicholas
W. Roberts(The Univ. of Machester, UK)
7-3 Fabrication of a Microlens Array using a
Birefringent Layer and Ferroelectric Liquid
Crystal 109
Yongmin Lee, Kwang-Ho Lee, Yoonseuk Choi, and
Jae-Hoon Kim(Hanyang Univ., Korea)
8. PDP Efficiency
8-1 [Invited] High Efficacy and High Speed
Addressing of a Spatial Positive Column
Discharge PDP 115
T. Shiga and S. Mikoshiba(The Univ. of
Electro-Communications, Japan)
8-2 Luminous Efficacy of 12 Im/W in an AC PDP in
Terms of Measurement of the Discharge in
iv
Table of Contents
Ne+20%Xe and Green Cells 119
Sung-Min Lee, Kwan Hyun Cho, and Kyung Cheol
Choi(KAIST, Korea)
8-3 High Luminous Efficacy AC-PDP with Long
Discharge Gap and Grooved
Dielectric Structure 123
Dongwoo Lee, Kwnag Yeol Choi, Sung Chun Choi,
Dong Gi Baek, Jong Rae Lim, Byung Nam Ahn, and
Won Bae Park(LG Electronics Inc., Korea)
8-4 New Front Plate Structure of ac-PDP using
Aluminum Fence-type Electrode Coated with
Anodic Aluminum Oxide 127
Mi-Yeon Lee, Snag-Hoon Yoon, and Yong-Seog
Kim(Hongik Univ., Korea)
9. AMOLED TFT
9-1 [Invited] Novel Backplane for AM-OLED Device
133
Myeon-Chang Sung, Ho-Nyun Lee, Chang Nam
Kim, Sun Kil Kang, Do Youl Kim, Seong-Joong
Kim, Sang Kyoon Kim, Sung-Kab Kim, Hong-Gyu
Kim, and Sung-tae Kim(LG Electronisc Inc., Korea)
9-2 [Invited] Ambipoalr Light-emitting OrganicField-effect Transistor using a Wide-band-gap
Blue-emitting Molecule 137
Tomo Sakanoue, Masayuki Yahiro, and Chihaya
Adachi(Kyushu Univ., Japan)
9-3 [Late News] 4 inch QVGA AMOLED display
driven by GalnZnOTFT 141
Jang Yeon Kwon, Kyoung Seok Son, Ji Sim Jung,
Tae Sang Kim, Myung Kwan Ryu, Kyung Bae Park,
Jung Woo Kim, Young Gu Lee, Young Soo Park and
Sang Yoon Lee(SAIT, Korea)
9-4 4.1" Transparent QCIF AMOLED Display Driven
by High Mobility Bottom Gate a-IGZO Thin-film
Transistors 145
J. K. Jeong, M. Kim, J. H. Jeong, H. J. Lee, T. K. Ahn,
H. S. Shin, K. Y. Kang, H. Seo, J. S. Park, H. Yang, H.
J. Chung, Y. G. Mo, and H. D. Kim(Samsung SDI Co.,
Ltd., Korea)
10-1
10-2
10-3
10. OTFTI
[Invited] Fabrication of An Organic Thin-Film
Transistor Array by Wettability Patterning for
Liquid Crystal Displays 151
Sung-Jin Kim, Jin-Hyuk Bae(Seoul Nat'l Univ.,
Korea), Taek Ahn, Min Chul Suh, Seung Wook
Chang, Yeon-Gon Mo, Ho-Kyoon Chung(SamsungSDI Co. Ltd., Korea), and Sin-Doo Lee(Seoul Nat'l
Univ., Korea)
Fabrication of Flexible OTFT Array with Printed
Electrodes by using Microcontact and Direct
Printing Processes 155
Jeongdai Jo, Taik-Min Lee, Dong-Soo Kim,
Kwang-Young Kim(KIMM, Korea), MasayoshiEsashi(Tohoku Univ., Japan), and Eung-Sug
Lee(KIMM, Korea)
159
Flexible OTFT-Backplane for Active Matrix
Electrophoretic Display Panel
Myung won Lee and Chung kun Song(Dong-A
Univ., Korea)
11. OTFT Materials Technology
11-1 [Invited] Interfacial Engineering of Polymer
Light Emitting Diode 165
Show-An Chen(Nat'l Tsing Hua Univ., Taiwan)
11-2 [Invited] Vertical Type Organic Transistors and
Flexible Display Applications 168
Kazuhiro Kudo(Chiba Univ., Japan)
11-3 [Invited] Cruciform Thiophene-based Molecules
as Organic Semiconductors for Field Effect
Transistor Applications 170
Dong Hoon Choi, Dae Chul Kim, Kyung Hwan
Kim, Min Ju Cho, and Jung-Il Jin(Korea Univ.,
Korea)
11-4 Synthesis and Characterization of Novel Fused
Aromatic Materials 174
Jong-Won Park, Qing-Hua Zhao, Tae-Hoon Kim
(Gyeongsang Nat'l Univ., Korea), Mi-Hye Yi
(KRICT, Korea), YmrHi Kim, and Soon-Ki Kwon
(Gyeongsang Nat'l Univ., Korea)
V
Table of Contents
12. Novel Manufacturing Technology
12-1 [Invited] Transparent Conductive Oxides for
Displays Applications 181
B. Szyszka, F. Ruske, V. Sittinger, A. Pflug, W.
Werner, C. Jacobs, A. Kaiser, and S. Ulrich
(Fraunhofer Inst, for Surface Engineering and Thin
Films 1ST, Germany)
12-2 Structure of Deposition Chamber using Belt
Source Evaporation Techniques in AMOLED
Manufacturing 186
Chang Hun Hwang(OLEDON Co., Ltd., Korea)
12-3 Hyper Neutral Beam System for Damage Free
Deposition of Indium-Tin Oxide Thin Films at
Room Temperature 190
Suk Jae Yoo, Daechul Kim, Jong Sik Kim, Kyoung
Suk Oh, Bongju Lee(NFRC, Korea), Soung Woong
Choi, Young Chun Park(Handong Global Univ.,
Korea), Jin-Nyoung Jang, and MunPyo Hong(Korea
Univ., Korea)
12-4 [Invited] From Printing Graphics to Printing
Electronics, The Digital Revolution in Display
Manufacturing 193
Eran Elizur(Kodak Graphic Communications
Canada Company, Canada)
13. LC Materials and Flexible Displays
13-1 [Invited] Synthesis and Mesomorphic Properties
of Banana-Shaped Mesogens with All-Ester
Linking Group 197
E-Joon Choi, Xin Cui(Kumoh Nat'l Inst, of Tech.,
Korea), Wang-Choel Zin, Chang-Woo
Ohk(POSTECH, Korea), Tong-Kun Lim, JrHoon
Lee(Korea Univ., Korea), Young-Chul Kim, and
Sang-ITyon Paek(Kyung Hee Univ., Korea)
13-2 Advanced LC Mixture Concept of Improved
Response Time 200
Markus Czanta, Kazuaki Tarumi(Merck KGaA,
Germany), Seung-Eun Lee, Sang-Kyu Lee, and
Min-Ok Jin(Merck Advanced Technologies Ltd.,
Korea)
Production of Flexible Devices 203
John L. West(Kent State Univ., USA), Asad Khan
(Kent Displays, USA)
13-4 Optically Compensated Bend Cell with
Pixel-isolating PolymerWall for a Flexible
Display Application 207
Seong Ryong Lee, Joong Ha Lee, Hong Jeek Jang,
Jin Seok Jo, Tae-Hoon Yoon, and Jae Chang Kim
(Pusan Nat'l Univ., Korea)
14. Protecting Layer
14-1 [Invited] Analysis of Materials for Protective
Layers in AC PDPs 213
Y. T. Matulevich, Min-Suk Lee, Suk-Ki Kim,
Jong-Seo Choi, Dong-Sik Zang(Samsung SDI Co.
Ltd., Korea), and Marco Kirm(Univ. of Tartu,
Estonia)
14-2 [Invited] Effects of Aging Treatment of
doped-MgO Layer on Discharge Characteristics
ofac-PDP 216
Kyung-Hyun Park, Min-Soo Ko, Sang-Hoon Yoon,
and Yong-Seog Kim(Hongik Univ., Korea)
14-3 Optimization of MgO Secondary Electron
Emission in Plasma Displays, by the Adoption of
a Suitable Getter Configuration - Part I: MgO
degradation studies 220
Mauro Riva, Antonio Bonucci, Corrado
Carretti(SAES Getters S.p.A., Italy), Yonggyu Han,
and Eun-Ha ChoifKwangwoon Univ., Korea)
14-4 Reconstruction Characteristics of MgO(111)
Textured Protective Layer by Over-Frequency
Accelerated Discharge in AC Plasma Display
Pannel 224
Sang-Koo Kwon, Jeong-Ho Kim, Seung-Kyu
Moon(LG Electronics Inst, ofTech., Korea),
Hyun-Ha Kim(LG Electronics Inc., Korea), Kyu-Ho
Park, and Sung-Tae Kim(LG Electronics Inc.,
Korea)
15. White AMOLED
13-3 [Invited] FLEXMatters: A Consortium for 15-1 [Invited] Advances in White OLED Tandem
VI
Table of Contents
Architecture for Next Generation AMOLED
Displays 231
T. K. Hatwar, J. P. Spindler, J. R. Vargas, M. Helber,
K. Klubek, W. Begley, M. Itoh, J. Hamer, and S. A.
Van Slyke(Eastman kodak Company, USA)
16-4 Polysilicon Thin Film Transistors on Spin-coated
Polyimide Layer for Flexible Electronics— 261
A. Pecora, L. Maiolo, M. Cuscuna, D. Simeone, A.
Minotti, L. Mariucci, and G. Fortiinato([FN-CNR,
Italy)
15-2 [Invited] Recent Advances In Small Molecule
OLED Microdisplays 235
Amalkumar P. Ghosh(eMagin Corp.k USA)
15-3 [Invited] Highly Efficient, Long Living White
PIN-OLEDs forAM Displays 239
Sven Murano, Martin Vehse, Gufeng He, Jan
Birnstock, and Michael Hofmann(Novaled AG,
Germany)
15-4 [Late News] Optical Structure of White OLED for
100% Color Gamut 245
Baek-woon Lee, Yougnln Hwang, Sungtae
Shin(Samsung Electronics Co. Ltd., Korea), and
Young-gu Ju(Kyungpook Nat'l Univ., Korea)
16. Si based TFT for Flexible Display
17. Materials for Flexible Display & BLU
17-1 [Invited] OTFT Materials Containing Fused
Aromatics 267
Jongwon Park, QingHua Zhao, Moon-Hak Park,
Taehoon Kim, and Soon Ki Kwon(Gyeongsang Nat'l
Univ., Korea)
17-2 [Invited] Simultaneous Measurements of
Drain-to-Source Current and Carrier Injection
Properties of Organic Thin-Film Transistors -- 271
Yutaka Majima(Tokyo Inst, ofTech., Japan)
17-3 Using Natural Graphite Heat Spreaders to
Increase CCFL LCD Operating Temperatures - 273
Julian Norley, Gary D. Shives, Brad Reis, and John
Schober(GratTech Intl. Ltd., USA)
16-1 [Invited] Direct Fabrication of a-Si:H TFT Arrayson Flexible Substrates: Principal Manufacturing
Challenges and Solutions 251
Shawn M. O'Rourke, Douglas E. Loy, Curt Moyer,Scott K. Ageno, Barry P. O'Brien, Dirk Bottesch,
Michael Marrs, Jeff Dailey, Edward J. Bawolek,
Jovan Trujillo, Jann Kaminski, David R. Allee,
Sameer M. Venugopal, Rita Cordova, Nick Colaneri
and Gregory B. Raupp(Arizona State Univ., USA)
16-2 [Invited] Large Size Plastic Display for Outdoor
Application 255
Nam-Seok Roh, Tae Hyung Hwang, Woojae Lee,
Wang Su Hong, Sung Jin Kim, Sang II Kim, and
Peter Shin(Samsung Electronics Co., Ltd., Korea)
17-4 Field Emission-Back Light Unit Fabricated using
Carbon Nanotube Emitter 277
H. S. Kim, J. W. Lee, S. K. Lee, C. S. Lee, K. W.
Jung, J. H. Lim, J. W. Moon, M. I. Hwang, I. H,
Kim, Y. H. Kim, B. G. Lee, Y. C. Choi, H. R. Seon,
S. J. Lee, and J. H. Park(Samsung SDI Co. Ltd.,
Korea)
18. Display Measuring & Analysis System
18-1 Advanced Array Test Sensor 283
Jong-Ho Lee, Tom Pye, and Pat Maxton(Photon
Dynamics, USA)
16-3 A Substrate Bias Effect on the Stability of
a-Si: H TFT Fabricated on a Flexible Metal
Substrate 257
Chang-Wook Han, Woo-Jin Nam, Chang-Dong Kim,
Ki-Yong Kim, In Byeong Kang, In-Jae
Chung(LG.Philips LCD Co., Ltd., Korea), and
Min-Koo Han(Seoul Nat'l Univ., Korea)
18-2 In-line Automatic Defect Inspection and RepairMethod for TFT-LCD Production 286
Hideyuki Honoki, T. Arai, T. Edamura, K.
Yoshimura, and N. Nakasu(Hitachi Ltd., Japan)
18-3 Twisted Nematic LC Modulator for TFT Array
Inspection 290
B. S. Bae(Hoseo Univ., Korea), D. H. Park, H. K. Lee,
vii
Table of Contents
S. E. Lee(MerckAdvanced Technologies Ltd., Korea),
S. H. Kim, D. H. Jeong(LG Electronics Inc., Korea),
and B. G. Rho(Sesim Photonics Tech., Korea)
18-4 Improve the Gamma Variation by Monitoring the
Angle of the Polarizer Absorption Axis 293
Chun-Wei Wu, Chiu-Jung Huang, Cheng-Chung Hu,
and Yao-Li Cheng(Chunghwa Picture Tubes,
Taiwan)
19. LC Technologies
19-1 [Invited] Surface modification method for
controlling liquid crystal alignment 299
Hak-Rin Kim(Kyungpook Nat'l Univ., Korea),
June-Yong Song, Kwang-Soo Bae, and Jae-Hoon
Kim(Hanyang Univ., Korea)
19-2 [Invited] Carbon-Nanotube Doping in Liquid
Crystals of Display Interest 303
Wei Lee and Hui-Yu Chen(Chung Yuan Christian
Univ., Taiwan)
19-3 [Invited] Lyotropic Chromonic Liquid Crystals:Effects ofAdditives and Optical Applications — 307
H. S. Park, L. Tortora, R. M. Vasyuta, A. B.
Golovin, E. Augustin, D. Finotello, and 0. D.
Lavrentovich(Kent State Univ., USA.)
Vacuum Sealing Method 320
Choon-Sang Park, Heung-Sik Tae(Kyungpook Nat'l
Univ., Korea), Young-Kuk Kwon, Eun Gi Heo, and
Byung-Hak Lee(Samsung SDI Co. Ltd., Korea)
21. OLED Process
21-1 [Invited] Scaleable, Cost Effective Display
Manufacturing Technology Based on
White OLED 327
James R. Buntaine(Eastman Kodak Company, USA)
and G. Rajeswaran(Eastman Kodak Company &
Kodak Japan Ltd., Japan)
21-2 High Control Alkali & Alkaline-earth Metal
Sources for OLED Devices 332
Antonio Bonucci, Johnny Mio Bertolo, Mauro Riva,
Corrado Carretti, Stefano Tominetti(SAES Getters
S.p.A., Italy), Sung Hyun Kim(Seoul Nat'l Univ.,
Korea), and Jim Yeob Lee(Dankook Univ., Korea)
21-3 Enhanced Control of OLED Deposition Processes
byOVPD® 336
M. Schwambera, N. Meyer, D. Keiper, M. Heuken
(AIXTRON AG, Germany), S. Hattmann,
W. KowalskyfTU Braunschweig, Germany),
A. Farahzadi, P. Niyamakom, M. Beigmohamadi, and
M. Wuttig(RWTH Aachen Univ. of Technology,
Germany)
20. PDP Materials and ManufacturingProcess
20-1 [Invited] Recent Advances with the 3M PDP High
Resolution Rib Replication Process 313
P. McGuire(3M Company, USA), J. C. Cha, H.
Kikuchi, and A. Yoda(Sumitomo 3M Ltd., Japan)
20-2 High Precision Molding Process for
Barrier Ribs of PDP by using a Soft Mold and
a Green Sheet 316
Seung-Min Ryu(KAIST, Korea), Lee Soon Park
(Kyungpook Nat'l Univ., Korea), and Dong-Yol
Yang(KAIST, Korea)
20-3 I CCD Observation on Discharge Characteristics
of 42-in. AC Plasma Display Panel Fabricated by
21-4
22-1
22-2
Recent Advances in Performance of Solution
Processed Small Molecule OLEDs at DuPont
Displays 340
Daniel D. LeCloux(Dupont Displays, USA)
22. E paper/Flexible LCD
347
[Invited] Advances in Microencapsulated
Electrophoretic Displays
Michael McCreary(E Ink Corp., USA)
[Invited] Active-matrix Flexible Display on
Plastic Substrate Fabricated by Glass Line — 348
Cheng-Chung Lee, Yung-Hui Yeh, and Tzong-MingLee(ITRI, Taiwan)
viii
Table of Contents
22-3 New Structure of Rigid Spacers for Tight
Bonding of Two Plastic Substrates in
Plastic LCD 352
Hong Choi, Se-Jin Jang, Ji-Hong Bae, Yoon-Seuk
Choi(Hanyang Univ., Korea), Sang-il Kirn, Sung-Sik
Shin(Samung Electronics Co. Ltd., Korea), and
Jae-Hoon Kim(Hanyang Univ., Korea)
Lee(KIMM, Korea), Soo-Yong Nam(Pukyung Nat'l
Univ., Korea), Yong-Sung Kim(KIMM, Korea),
Dae-Yup Na(Pukyung Nat'l Univ., Korea),
Choon-Woo You(ZeusCo. Ltd., Korea), Dong-Youn
Shin, Kwangyoung Kim(KIMM,, Korea), Kwang-11
Jung(Zeus Co. Ltd., Korea)
22-4 Writable Cholesteric Liquid Crystal Display and
the Algorithm Used to Detect its Image 356
Da-Wei Lee, Jyh-Wen Shiu, Yi-An Sha, and YirPei
Chang(ITRI, Taiwan)
23. BLU Components & System Technology
23-1 [Invited] Intelligent Backlighting System for
LCD TV 363
Jorge P. Sanchez(CEYX® Technologies, USA) and
Sungkyoo Lim(Dankook Univ., Korea)
23-2 [Invited] Influence of Glass Tube Dielectrics on
the New Generation of External Electrode
Fluorescent Lamps 367
Guangsup Cho(Kwangwoon Univ., Korea)
23-3 High Brightness LED BLU for Large Size LCD TV
Choi Yong-Seok, Yu Soon Jae, Kim Donsoo, Chung
Cheon Kee, Lee Jeong Hyeon (ITSWELL Co., Ltd.,
Korea)
25. LCD Mode
25-1 [Invited] Advanced-MVAlA-MVA] Mode for High
Quality LC Displays 387
Yi-Pai Huang(Nat'l Chiao Tung Univ., Taiwan),
Wei-Kai Huang, Cheng-Han Tsao, Jeng-Jia Su,
Hong-Lung Hou, Pei-Chun Liao, Chung-Yi Chiu,
and Chia-Yu Lee(AU Optronics Technology Center,
Taiwan)
25-2 Viewing Angle Switching of Tristate Liquid
Crystal Display 391
Chao Ping Chen(Pusan Nat'l Univ., Korea), Chul
Gyu Jhun(Hoseo Univ., Korea), Tae-Hoon Yoon,
and Jae Chang Kim(Pusan Nat'l Univ., Korea)
25-3 Pixel Design for Improving Transmittance in
OCB LCD 395
K. C. Lee, Y. A. Sha, P. J. Su, C. H. Hsieh, K. H.
Chang, C. C. Hsiao, S. Y. Fuh, W. Y. Cheng, Y. C.
Liao, J. C. Yang, K. L. Lo, D. W. Lee, Y. P. Chang,and J. W. Shiu(ITRI, Taiwan)
24. Film & Patterning Process Technology
24-1 [Invited] Through Flow Technology-Enabling
Highly Reliable Inkjet Manufacturing of Flat
Panel Displays 373
JohnAttard(XaarPlc,UK)
24-2 Theoretical Investigation of Jetting and Wetting
Phenomena for the Fabrication of TFT LCD Color
Filters 376
Dong-Youn Shin(KIMM, Korea) and Kenneth A.
Brakke(Susquehanna Univ., USA)
24-3 Color Filter Pattern Generation by Screen
Printing 380
Yong-Jung Choi(Zeus Co. Ltd., Korea), Taik-Min
25-4 Viewing Angle Switching of
a Liquid Crystal Panel by using 3-terminal
Electrode Structure 399
Yong-Hoan Kwon, Jong-In Baek, Jae Chang Kim,
and Tae-Hoon Yoon(Pusan Nat'l Univ., Korea)
25-5 NewS-PVA Technology for Advanced LCD
Performance 403
Yoon Sung Um, Seung Beom Park, Hoon Kim, Hye
Ran You, Jae jin Lyu, Kyeong-Hyeon Kim and Sang
Soo Kim(Samsung Electronics Co., Ltd., Korea)
26. Display Electronics I
26-1 [Invited] Technology Trend and Requirement of
Mobile Displays using Low-Temperature
ix
Table of Contents
409Poly-Si(LTPS) Technologies
Oh-Kyong Kwon(Hanyang Univ., Korea)
26-2 Motion Blur Reduction based on Motion
Compensation 413
Jae-Hyeung Park, YutrJae Kim, Minkyu Park,
Tadashi Amino, Jaeho Oil, Nam Deog Kim, and SangSoo Kim(Samsung Electronics Co. Ltd., Korea)
26-3 Design of Line Memory with Low-temperature
PoLy-silicon(LTPS) Thin-film Transistor(TFT) for
System-on-GlasslSoG) 417
Jinyong Choi, Kyungyoul Min, and Changsik
Yoo(Hanyang Univ., Korea)
26-4 PHUNDlPortable Head Up Navigation Display)for a MotorVehicle 421
Sung Chul Shin, Sang Hoon Hahn, Yongseok Chi,
Tae-Jeong Ahn, Hoyoung Choi, Tae Soo Park, and
Sung Tae Kim(LG Electronics Inc., Korea)
27. OLED Materials
27-1 [Invited] Full-Color Phosphorescent OLEDs:
Maximizing Performance Today for Small-Area
Portable Products and Tomorrow for TVs—- 427
Julie J. Brown, Vadim. I. Adamovich, Bin Ma, Brian
DAndrade, Raymond C. Kwong, and Michael S.
Weaver(Universal Display Corp., USA)
27-2 [Invited] Development of P-OLED Materials for
Displays and Lighting 431
Scott Brown(Sumation Co. Ltd., UK), Michael Cass,
Natasha Conway, Ilaria Grizzi, Mary McKiernan,Matthew Roberts(CDT Ltd., UK), Yoshiaki Tsubata,
Chizu Sekine, Takeshi Yamada(Sumitomo Chemical
Co. Ltd., Japan), and Richard Wilson(CDT Ltd.,
UK)
27-3 Hole Transfer Layer P-doped with a Metal Oxide
for Low Voltage Operation of OLEDs 435
Won-Ju Shin, Je-Yun Lee, Jae-Chang Kim,
Tae-Hoon Yoon(Pusan Nat'l Univ., Korea),
Tae-Shick Kim, and Ok-Keun Song(Samsung SDI
Co. Ltd., Korea)
27-4 Synthesis and Characterization of Novel Blue
Materials based on Anthracene Derivatives for
High Efficient OLED 439
Qing Hua Zhao, Sung-Ouk Jung, Dong-Min Kang,
Yun-Hi Kim, and SooirKi Kwon(Gyeongsang Nat'l
Univ., Korea)
28. Flexible Substrate and Passivation
28-1 [Invited] Flexible Ultra-high Gas Barrier
Substrate for Organic Electronics 445
Min Yan, Ahmet Gun Erlat, Ri-an Zhao, Brian
Scherer, Cheryl Jones, David J. Smith, Paul A.
McConnelee, Thomas Feist, and Anil
Duggal(General Electric Global Research Center,
USA)
28-2 [Invited] Commercializing Flexible Substrates
for Displays and Lighting - Challenges and
Opportunities 447
Mark Audi, Senthil Ramadas, and Chua Soo Jin
(Inst, of Materials Research and Engineering,
Singapore)
28-3 The Impact of Thermal Stress, Mechanical
Stress and Environment on Dimensional
Reproducibility of Polyester Film during Flexible
Electronics Processing 448
William A. MacDonald, Robert Eveson, Duncan
MacKerron, Raymond Adam, Keith Rollins, Robert
Rustin, M. Kieran Looney, John Stewart, and
Katsuyuki Hashimoto(DuPont Teijin Films, UK)
28-4 Silicon Carbide Barrier Technology to Enable
Flexible OLED Displays —- 452
Sang-Jin Kim, Ludmil Zambov, Ken Weidner,
Vasgen Shamamian, and Glenn Cerny(Dow Coming
Corp., USA)
29. New Materials and Processing
Technology for FPD
29-1 [Invited] Joule-Heating Induced Crystallization
(JIC) of Amorphous Silicon Films 459
Won-Eui Hong(Hongik Univ., Korea), Joo-Yeol
Lee(EnSilTech Corp., Korea), Bo-Kyung Kim, and
Jae-Sang Ro(Hongik Univ., Korea)
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Table of Contents
29-2 Ink-Jet Printing Technology for Color Filter -- 463
Zih-Jie Jian, Wei-Jen Liou, Hong-Ming Lin(TatungUniv., Taiwan), Yu-Cheng Lo, Pei-Yu Liu,
Jiun-Ming Wang, and Huai-An Li(Chunghwa
Picture Tubes, Ltd., Taiwan)
29-3 Ultrafine ITO Nanoparticle for
InkJet Printing 467
Sung-Jei Hong, Yong-Hoon Kim, and Jeong-In
Han(KETI, Korea)
29-4 High Extraction Efficiency of Photonic Crystal
Microcavity GaN based Light Emitting Diode - 471
Minsu Clio, Kiwon Moon, Haewook Han(Pohang
Univ. of Science and Technology, Korea), Jisu Yoon,
ByoungKoan Jeong, Jong Keun Shin, and Injae
Chung(LG. Phillips LCD Co., Ltd., Korea)
30. Driving Methods & System
30-1 [Invited] Field Emission Display with Design
Elements for Control of Uniformity, Color Purity,Luminance, and Invisible Spacers 475
Emmett M. Howard, Bernard F. Coll, Ken A. Dean,
Michael R. Johnson, Scott V. Johnson, James E.
Jaskie, and Hao Li(Motorola Inc., USA)
30-2 A Study on Phosphor Activation and Persistence
for High Performance Driving 20" Carbon
Nanotube Backlight Units 479
Chiao-Nan Huang, Chao-Chiun Liang(ITRl,
Taiwan), Shang-Ying Chung, Ching-Ming Lai(Nat'l
Tsing Hua Univ. China), Biing-Nan Lin, Yau-Chen
Jiang, Cheng-Chung Lee(ITRI, Taiwan), and
Ching-Tsai Pan(Nat'l Tsing Hua Univ., China)
30-3 [Invited] Fabrication and Driving of
Active-Matrix Field Emission Display 483
YooirHo Song, Jin-Woo Jeong, Dae-Jun Kim, Juntae
Kang, and Kyoung-Ik Cho(ETRI, Korea)
30-4 Effect of Liquid Surface Treatments on Field
Emission Properties of Carbon Nanotube
Cathodes 486
Ji-Eon Lee, Young-Je An, Heon-Cheol Shin,
Won-Sub Chung, and Young-Rae Cho(Pusan Nat'l
Univ., Korea)
Poster Session I
P1-1 Thermal Reaction of Cinnamate Oligomers and
their Effect on the Orientational Stability of
Liquid Crystals 493
Hyundae Hah, Shi-Joon Sung, and Jung-Ki
Park(KAlST, Korea)
P1-2 Homeotropic Liquid Crystal Cell without Vertical
Alignment Layers 496
Shie-Chang Jeng, Hsing-Lung Wang, Chia-Wei Kuo,
Yan-Rung Lin, and Chi-Chang Liao(ITRI, Taiwan)
P1-3 Vertical Alignment Nematic Liquid Crystal
Display with Patterned Electrode using Positive
Liquid Crystal Materials 499
Hun Ki Shin, Tae-Hoon Yoon, and Jae Chang
Kim(Pusan Nat'l Univ., Korea)
P1-4 An Improved Electrode Structure of the
Patterned Vertical Alignment Liquid Crystal Cell
for High Optical Property 502
Yong-Hyun Choi, Jung-Hee Son, Jin-Seok Yang,
Seung-Hoon Ji, and Gi-Dong Lee(Dong-A Univ.,
Korea)
P1-5 Liquid Crystal Alignment on the Inkjet Printed
Polyimide by using New Alignment Method — 506
J. Y. Hwang, H. Wonderly, and L. C. Chien(Kent
State Univ., USA)
P1-6 Implementation of Q-Tensor Model into 3-D
Finite Element Method(FEM) Numerical Solver
509
Woo-Jung Shin(Inha Univ., Korea), Hyung-Jin
Yoon(Sanayi System Co., Ltd., Korea), and
Taeyoung Won(Inha Univ., Korea)
P1-7 The Optimization of New Alignment Films in the
TNLC for Low Image-sticking 513
Jong Hyun Lee(Samsung Electronics Co.,Ltd.,
Korea), Junsin Yi(Sungkyunkwan Univ., Korea),
Hwan Kyung Jung, Seung Guk Lee, Hyohak Nam,
Yoojoung Nam, and Sungwoo Choi(Samsung
Electronics Co., Ltd., Korea)
P1-8 Comparative Study on Tensor and Vector
Approaches for 3D-FEM Numerical Simulator
517
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Table of Contents
Sang Young Cho, Seung Soo Yang(Inha Univ.,
Korea), Hyoung Jin Yoon(Sanayi System Co., Ltd.
Korea), and Tae Young Won(Inha Univ., Korea)
P1-9 Investigation on the Flicker for the Optimal
Design of LCD Panel 520
Jung-Bok Lee and Taeyoung Won(Inha Univ.,
Korea)
P1-10 The Injection of PDLC Solution Mixture in a
Reduced Pressure — 524
Kang-Pil Kim, Kee-Jeong Yang, Dae-Hwan. Kim,
and Byeong-Dae Choi(DGIST, Korea)
SwitchinglFFS) Liquid Crystal Display by
Optimizing Pixel Structure 545
Eun Jeong, Mi Hyung Chin, Youn Sik Kim, Young
Jin Lim, Myong-Hoon Lee, and Seung Hee
Lee(Chonbuk Nat'l Univ., Korea)
P1-17 Optimized Electrode Design to Improve
Transmittance in the Patterned Vertical
Alignment Liquid Crystal Display 549
Seong Jin Hwang, Youn Sik Kim, Seung Hee
Lee(Chonbuk Nat'l Univ., Korea), Jae-Jin Lyu, and
Kyeong-Hyeon Kim(Samsung Electronics Co., Ltd.,
Korea)
P1-11 Film Compensation based on Discotic Film in
Fringe Field Switching Mode 527
Seong Han Hwang, Byoung Sun Jung, Seong Su
Kim, Seung Hee Lee(Chonbuk Nat'l Univ., Korea),
and Gi-Dong Lee(Dong-A Univ., Korea)
P1-12 Accurate Measurement of Twist Angle for
Analysis of Azimuthal Anchoring Energy and
Rubbing Direction of LC Panels of
IPS Mode 531
S. H. Baek, B. G. Rho(Sesim Photonics Tech. Co.,
Ltd., Korea), J. M. Oh, W. S. Dong(Jeil Textile Co.,
Ltd., Korea), B. K. Yang, and J. S. Kim(Chonbuk
Nat'l Univ., Korea)
P1-13 Advanced Nanoimprinting Material for Liquid
Crystal Alignment 534
Jin Seog Gwag, Masahito Oh-e, Makoto Yoneya,
Hiroshi Yokoyama(Japan Science and Technology
Agency, Japan), H. Satou, and S. Itami(ChissoPetrochemical Corp., Japan)
P1-14 Lateral Field Effects on the Horizontal Switchingof the Bistable Chiral Splay Nematic Device - 538
Chul Gyu Jhun, Yi-Jun Kim, Kwan-Sik Min, Sugn
Sik Shin(Hoseo Univ., Korea), Jae Chang
Kim(Pusan Nat'l Univ., Korea), and Soon-Bum
Kwon(Hoseo Univ. Korea)
P1-15 Synthesis and Properties of Liquid Crystalline
Y-shaped Molecules Containing
1,3,4-Oxadiazole 542
Eun-Kyoung Kwon and E-Joon Choi(Kumoh Nat'l
Inst, ofTechnology, Korea)
P1-16 Viewing Angle Switching of Fringe-Field
P1-18 Synthesis and Characterization of New
Azomethine Polymers Containing Bent-Core
Mesogen with Sharp Bend Angle 553
Eun Choi Kim, E-Joon Choi(Kumoh Nat'l Inst, of
Technology, Korea), Chang-Woo Ok, and
Wang-Choel Zin(Pohang Univ. of Science and
Technology, Korea)
P1-19 Electro-optic Characteristics of Carbon
Nanotube-doped Liquid Crystal Cell Driven
by In-plane Switching and
Fringe-field Switching 556
Seung Hwan Shin, Seok Jin Jeong, Eun Mi Jo, Seung
Hee Lee(Chonbuk Nat'l Univ., Korea), Hoon Kang,
Kyeong-Jin Kim, In-Su Baik(LG.Philips LCD Co.,
Ltd., Korea), Seok Ho Jeong, Young Hee Lee
(Sungkyunkwan Univ., Korea), Hee Kyu Lee, and
Seung Eun Lee(Merck Advanced Technologies, Ltd.,
Korea)
P1-20 Light Efficiency of Fringe-field Switching
Nematic Liquid Crystal Cell Depending on
Dielectric Anisotropy Value of
a Liquid Crystal 560
Je Woo Ryu, Ji Youn Lee, Ji Woong Park, Seung
Hee Lee(Chonbuk Nat'l Univ., Korea), and Gi-Dong
Lee(Dong-A Univ., Korea)
P1-21 Positive Type Photoresist for Patterning of
Interdielectric Layer of TFT Array 564
Hyo-Jung Lee, Hyo-Jin Kim, Soon Hak Kim, Lee
Soon Park, Yun Su Lee, Gab Deuk
Song(Kyungpook Nat'l Univ., Korea)
P1-22 Experimental and Numerical Study on
Anisotropic Phase Separation of
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Table of Contents
Liquid Crystal and Polymer Composites as Cell
Gap Variation 567
Min Young Jin(Image Lab Corp., Korea), Ji-Hong
Bae, and Jae-Hoon Kim(Hanyang Univ. Korea)
P1-23 The Study of the Charge Transport on the
Surface Layer of the Patterned Vertical
AlignmentlPVA) Mode 571
Nakcho Choi(Samsung Electronics Co., Ltd, Korea),
Jaeyong You, Jiyoung Jung, Kungwon Rhie(Korea
Univ., Korea), and Sungtae Shin(Samsung
Electronics Co., Ltd., Korea)
P1-24 Spatiotemporal Behavior of Excited Xe Atoms
Density in Counter Discharged Type AC-PDP -- 574
Young June Hong, Phil Yong Oh, Se hoon Jeong,
Jong Hwa Hong, Jung Hyun Kim, Yong Gyu Hau,
Seok Ho Cho, Sung Hee Hong, Byoung Hee Hong,
and Eun Ha Choi(Kwangwoon Univ.,Korea)
P1-25 Characteristics of Microplasma Modes in a
Plasma Display with an Auxiliary Electrode - 578
Seung Hun Kim, Jeong Hun Mun, and Kyung Cheol
Choi(KAIST, Korea)
P1-26 Studies about Visible Light Distributionin PDP
Cells with 3-dimesional Optical Code 582
Chulwhan Eom and Jungwon KangfDankook Univ.,
Korea)
P1-27 Effect of Self-Erase Discharge on the Luminous
Efficacy of Long Gap AC PDPs 585
Tae Jun Kim, Jae Chul Jung, Hae-Yoon Jung, and
Ki-Woong Whang(Seoul Nat'l Univ., Korea)
P1-28 IBS Electrode Structure for Enhanced
Performance in ac PDP 589
Seung Hee Yang, Jae Seung Moon, Kwang Nyun
Kim, and Cheol Hee Moon(Hoseo Univ., Korea)
P1-29 Bendable ac-PDP using Fence-Structured
Electrodes on Polyethylene Terephthalate
Substrate 593
Won-Yeol Choi, Cho Rong Hong, and Yong-Seog
Kim(Hongik Univ., Korea)
P1-30 Observation and Analysis of Address and Sustain
Discharges and Related Wall Voltage
Characteristics in AC-PDP 597
Hyung Dal Park, Heung-Sik Tae(Kyungpook Nat'l
Univ., Korea), Min Hur, Soo-Ho Park, Minson Yoo,
and Eun Gi Heo(Samsung SDI Co., Ltd., Korea)
P1-31 Wall Voltage Transfer Characteristics according
to Address Bias Voltage 601
Y. M. Lee and D.C. Jeong(Hoseo Univ., Korea)
P1-32 Effect of Auxiliary Address Pulse on Face-to-face
Sustain Electrode Structure in AC-PDP 605
Bo-Sung Kim and Heung-Sik Tae(Kyungpook Nat'l
Univ., Korea)
P1-33 Load Current Prediction Method for a DC-DC
Converter in Plasma Display Panel 609
S. Y. Chae, B. C. Hyun, W. S. Kim, and B. H. Cho
(Seoul Nat'l Univ., Korea)
P1-34 Relationship between Image Retention and Time
Lag in an AC PDP 613
Yun Seon Do, Cheol Jang, and Kyung Cheol
Choi(KAIST, Korea)
P1-35 Experimental Observation of Temporal Dark
Image Sticking in AC PDP with Face-to-Face
Sustain Electrode Structure 617
Jae Hyun Kim, Choon-Sang Park, Bo-Sung Kim,
Ki-Hyung Park, and Heung-Sik Tae(KyungpookNat'l Univ., Korea)
P1-36 Synthesis and Electroluminescent Properties of
Fluoranthene Derivatives 621
Soo-Kang Kim and Jong-Wook Park(The Catholic
Univ. ofKorea, Korea)
P1-37 High Efficiency and Long Lifetime for Organic
Light-Emitting Diode using New Electron
Transport Materials 625
Tsuyoshi Tanaka, Masaru SatofTosoh Co.,
Ltd.,Korea), Hidenori Aihara, Naoko Yanai, and
Tetsu Yamakawa(Sagami Chemical Research
Center, Japan)
P1-38 New Green Fluorescent Materials for OLEDs - 628
Chil-Won Lee, Eun-Jung Lee, Joon-Woo Kim,
Jong-Hyeok Yun(Daejoo Electronic Materials Co.
Ltd., Korea), Jun-Yeob Lee, and Myoung-Seon
Gong(Dankook Univ., Korea)
P1-39 Effects of ITO Surface Modification using
Self-assembly Molecules on the Characteristics
xiii
Table of Contents
of OLEDs 632
Se Young Oh and Dong Hwi Kim(Sogang Univ.,
Korea)
P1-4Q Novel Bipolar Host Materials for
Phosphorescent OLEDs 636
Eim-Sun Yu, NanrSoo Kim, Young-Hoon Kim,
Mi-Young Chae, and Tu-Won Chang(Cheil
Industries Inc., Korea)
P1-41 The Effect of Plasma Damage on Electrical
Properties ofAmorphous GalnZnO Film 640
Minkyu Kim, Jin-Seong Park, Jae Kyeong Jeong,
Jong Han Jeong, Tae Kyung Ahn, Huiwon Yang,
Hun Jung Lee, Hyun-Joong Chung, Yeon-Gon Mo,
and Hye Dong Kim(Samsung SDI Co., Ltd, Korea)
P1-42 Effect of Thermal Heat Treatment on the
Characteristics of Vertical Type Organic Thin
Film Transistor using Alq3 as Active Layer and
Its Application for OLET 644
Se Young Oh, Young Do Kim, and Sun Kak
Hwang(Sogang Univ., Korea)
P1-43 Study of White Polymer Electrophosphorescent
Light-emitting Diode with Heteroleptic
Ir-Complex 648
Jaywoo Lee and Eugene Kim(Hongik Univ., Korea)
P1-44 Synthesis and Electro-optic Properties of
Anthracene Derivatives for Blue Emitting OLED
Devices 651
Eun Jung Park, Eon Joo Lyu, Lee Soon Park, Soon
Hak Kim, Giseop Kwak, and Yun Su
Lee(Kyungpook Nat'l Univ., Korea)
P1-45 Characteristics of Directly Sputtered Al Cathode
Film using Twin Target Sputtering System for
OLEDs 655
Jong-Min Moon(Kumoh Nat'l Inst, ofTechnology,Korea), Sang-Hyeon Lee(Top Engineering, Korea),
and Han-Ki Kim(Kumoh Nat'l Inst, of Technology,
Korea)
P1-46 Passivation of Organic Light Emitting Diodes
with a-SiNxThin Films Grown by CatalyzerEnhanced Chemical Vapor Deposition 659
Jin-AJeong(KumohNat'l Inst, ofTechnology, Korea),
.lae-Wook Kang(Seoul Nat'l Univ., Korea), and
Han-Ki Kim(Kumoh Nat'l Inst, ofTechnology, Korea)
P1-47 Highly Efficient Red Phosphorescent OLEDs
Employing a Multifunctional
Oligofluorene Host 663
Ming-Han Tsai, Hai-Ching Su, Chung-Chih Wu,
Ken-Tsung Wong(Nat'l Taiwan Univ., Taiwan), and
Wen-Ren Li(Nat'l Central Univ., Taiwan)
P1-48 Highly Efficient Light-Emitting PPV Derivatives
Containing Polyhedral Oligomeric
SilsesquioxaneslPOSSs) 667
Jong-Min Kang(Kumoh Nat'l Inst, of Technology,Korea), Hoon-Je Cho(KAIST, Korea), Jae-Hoon
Eom(Kumoh Nat'l Inst, of Technology, Korea),
Jeong-Ik Lee(ETRI, Korea), Sang-Kyu Lee, Jonghee
Lee, Nam-Sung Cho, Hong-Ku Shim(KAIST,
Korea), and Do-Hoon Hwang(Kumoh Nat'l Inst, of
Technology, Korea)
P1-49 Characteristics of a Conducting Polymer Anode
for Flexible OLED using Screen
Printing Method 671
Jin Woo Huh, Young Min Kim, Young Wook Park,
Jin Hwan Choi(Korea Univ., Korea), Jong Woo
Lee(DPI Solutions, Inc., Korea), Jae Woong Yang,
Sung Hoo Ju, Kyeong Kap Paek(Daejin Univ.,
Korea), and Byeong Kwon Ju(Korea Univ., Korea)
P1-50 Efficiency Enhancement of Organic Light
Emitting Diodes by the Aluminum Oxynitride
Buffer Layer 675
Hyungjun Park, Kyungsoo Jang, Sungwook Jung,Sunghyun Hwang, Jeoungin Lee, Kwangsoo Lee,
Keunhee Park, Eunkyoung Nam, Donggeun Jung,
and Junsin Yi(Sungkyunkwan Univ., Korea)
P1-51 Low Voltage Organic Light-emitting Devices with
New Electron Transport Layer 679
Mi-Young Ha, So-Youn Kim, and Dae-Gyu
Moon(Soonchunhyang Univ., Korea)
P1-52 Transparent Organic Light-emitting Devices with
CsCl Passivation Layer 683
So-Youn Kim, Chan-jae Lee(Soonchunhyang Univ.,
Korea), Mi-Young Ha, Dae-gyu Moon(KETI,
Korea), and JeongTn Han(Soonchunhyang Univ.,
Korea)
P1-53 Emission Characteristics of Green OLED with
Hole Transport Material 687
Xinwei Gao, Jong Yek Park, Yong Gu Baek(ELM
xiv
Table of Contents
Co. Ltd., Korea), Sung Hoo Ju, Jae Woong Yang,
Bong Sub Lee, Jung Taek Kim, and Kyeong Kap
Paek(Daejin Univ., Korea)
P1-54 Electrical Properties of the Molybdenum Oxide
Doped Hole Transport Layer 691
Jin-Young Yun, Changhee Lee, Won Jun Song, and
Yeun Joo Sung(Seoul Nat'l Univ., Korea)
P1-55 Highly Efficient Phosphorescent Polymer OLEDs
Fabricated by Screen Printing 694
D. H. Lee, J. S. Choi, and S. M. Cho(Sungkyunkwan
Univ., Korea)
P1-56 The Triple Layer Anode for Flexible Top
Emission Organic Light-emitting Devices— 698
Sung Mook Chung, Chi-sun Hwang, Jeong-Ik Lee,
Sang Hee Ko Park, Yong Suk Yang, Lee-Mi Do, and
Hye Yong Chu(ETRI, Korea)
P1-57 Synthesis and Characterization of HeterolepticIridium Complex with Phenylpyridine and
5'-methyl-diphenylquinoline 702
Seung-chan Lee and Young Sik Kim(Hongik Univ.,
Korea)
P1-58 Study on the Touch Screen Panel Based on the
Light over Electro Phoretic Display 706
Uk Chul Choi, Ho Young Jung, Cheol Woo Park,
and Sung Jin Hong(Sarasung Electronics Co. Ltd.,
Korea)
P1-59 Bending Effect of Flexible Liquid
Crystal Display 710
Yan-Rung Lin, Shie-Chang Jeng, Chia-Wei Kuo,
ChrChang Liao(ITRI, Taiwan), Cheng-Chung Chen,
and Joe-Tsong Shy(Nat'l Tsing Hua Univ., Taiwan)
P1-60 Flexible EL Display Printed on a Paper 713
Taik-Min Lee, Dong-Youn Shin, Yong-Sung Kim,
Chung Hwan Kim, Jeongdai Jo, Byung-Oh Choi,
and Dong-Soo Kim(KIMM, Korea)
P1-61 3.5 Inch QCIF AMOLED Panel with Ultra Low
Temperature Polycrystalline Silicon Thin Film
Transistor on Plastic Substrate 717
Yong-Hae Kim, Choong-Heui Chung, Jaehyun
Moon, Dong-Jin Park, Su-Jae Lee, Gi Heon Kim,
and Yoon-Ho Song(ETRI, Korea)
P1-62 Printable Low Work Function Cathode for OLED
Devices 721
Tiina Maaninen, Markus Tuomikoski, and Arto
Maaninen(VTT, Finland)
P1-63 Influence an Oxide Layer Thickness on
Resistivity of Cu Conductive Film and Ink-jet
Printing of Cu Nanoparticle Ink 724
Sunho Jeong, Kyoohee Woo, Dongjo Kim(Yonsei
Univ., Korea), Soonkwon Lim, Jang Sub
Kim(Samsung Electronics Co. Ltd., Korea), and
Jooho Moon(Yonsei Univ., Korea)
P1-64 Gate Dielectric based on Organic-inorganic
Hybrid Polymer in Organic Thin-film
Transistors 727
Seong Hui Lee, Sunho Jeong, and Jooho Moon
(Yonsei Univ., Korea)
P1-65 Investigation of Charge Injection in Organic Thin
Film Transistor using Ink-jet Printed Silver
Electrodes 730
Dongjo Kim, Sunho Jeong, Sul Lee, Daehwan Jang,
and Jooho Moon(Yonsei Univ., Korea)
P1-66 Substrate Bonding Technique using the
Agar-epoxy Composites for Flexible LCD 733
Ji-Hong Bae, Se-Jin Jang, Hong Choi(Hanyang
Univ., Korea), Sang-Il Kim(Samsimg Electronics
Co. Ltd., Korea), and Jae-Hoon Kim(Hanyang Univ.,
Korea)
P1-67 The Effects of Hydrophobic Buffer Layer Without
Losing Dielectric Property on Organic Transistors
737
June-Yong Song, Jae-Il Jung, Yoonseuk
Choi(Hanyang Univ., Korea), Hak-Rin Kim
(Kyungpook Nat'l Univ., Korea), and Jae-Hoon Kim
(Hanyang Univ., Korea)
P1-68 Double Hole Transport Layers Deposited by
Spin-coating and Thermal-evaporating for
Flexible Organic Light Emitting Diodes 741
Shin Liang Chen, Shun Hsi Wang, Fuh Shyang
Juang, and Yu Sheng TsaifNat'l Formosa Univ.,
Taiwan)
P1-69 The Thermal Annealing Effect on Electrical
Performances of a-Si: H TFT Fabricated on a
Metal Foil Substrate 745
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Table of Contents
Chang-Wook Han, Woo-Jin Nam, Chang-Dong Kim,
Ki-Yong Kim, In Byeong Kang, In-Jae
Chung(LG.Philips LCD Co. Ltd., Korea), and
Min-Koo Han(Seoul Nat'l Univ., Korea)
P1-70 Formation of Buffer Layer on Mica for
Application to Flexible Thin
Film Transistors 749
Joon SeokOh, Seung Ryiil Lee(KAIST, Korea), Jin Ho
Lee(ETRI, Korea), andByung TaeAhn(KAIST, Korea)
P1-71 The Analysis of the Characteristics According to
Polymer Concentration for Polymer Light
Emitting Diode Fabricated on
Flexible Substrates 752
Woo Jin Cho, Su Hwan Kim, Byoung Ho Kang, Do
Eok Kim, and Shin Won Kang(Kyungpook Nat'l
Univ., Korea)
P1-72 Organic TFT Fabricated on Ultra-thin Flexible
PLastic with a Rigid Glass Support 756
Young Rae Son, Seung Hoon Han, Sun Hee Lee, Ki
Jung Lee, Min Hee Choi, Dong Joon Choo, and Jin
Jang(Kyung Hee Univ., Korea)
P1-73 Effect of Fe Catalyst on Growth of Carbon
Nanotubes by Thermal CVD 760
Seung-il Yoon, Sung-Tack Heo, Sam-Soo Kim,
Yang-Kyu Lee, and Dong-Gu Lee(Kumoh Nat'l Inst,
ofTechnology, Korea)
P1-74 Electron Field Emission for a Cylindrical Emitter
of Single Carbon Nanotube 764
YouirJu Lee, Chang-Duk Kim, and Hyeong-Rag
Lee(Kyungpook Nat'l Univ., Korea)
P1-75 Synthesis of Carbon Nanotubes by using
Inductively Coupled Plasma Chemical Vapor
Deposition at Low Temperature 768
Young Rae Kim, Ingoo Jang, Hyun Jin Cho, HongJun Jeon(Sejong Univ., Korea), Jung Keun Cho,
Hosoo Hwang, Byung Yun Kong(System
Engineering Mega Solution, Korea), and Naesung
Lee(Sejong Univ., Korea)
P1-76 Improvement Field Emission Uniformity in
Carbon Nanotube Composite using Zinc
Nano-Fillers 772
Sungyun Jeon, Jae-Hong Park, Jong-Hak Lee,
Jun-Ho Shin, Sung-min Park, Alegaonkar Prashant,
and Ji-Beom Yoo(Sungkyunkwan Univ., Korea)
P1-77 Field Emission Properties of Expanded Graphite
Composite 775
P. S. Alegaonkar, J. H. Park, S. Y. Jeon, J. H. Shin,
A. S. Berdinsky, and J. B. Yoo(SungkyunkwanUniv., Korea)
P1-78 Dispersion of Carbon Nanotube in Polymer
Composite and Their Field
Emission Superiority 778
J. H. Park, S. Y. Jeon, P. S. Alegonkar, and J. B.
Yoo(Sungkyunkwan Univ., Korea)
P1-79 Effect of Current-Aging on Field Emission from
Carbon Nanotube Field Emitter Arrays 782
Ki Seo Kim, Je Hwang Ryu, Chang Seok Lee, S.
Manivannan, Jong Hyun Moon, Jung Sun Ahn, Jin
Jang, and Kyu Chang Park(Kyung Hee Univ.,
Korea)
P1-80 Field Emission Characteristics of Dot-patternedPhotosensitive CNT Paste 786
Jinhee Kim, Hansung Lee, Jihyeon Jeon, Jeung
Choon Goak, and Naesung Lee(Sejong Univ.,
Korea)
P1-81 Synthesis of Thin Multiwalled Carbon Nanotubes
for Field Emission by Optimizing Gas
Compositions in Thermal Chemical VaporDeposition 790
Hong Jun Jeon, Hyun Jin Cho, Young Rae Kim, and
Naesung Lee(Sejong Univ., Korea)
P1-82 Adaptive Contrast Ratio Enhancement Algorithm
for Mobile LCD 794
Seung-rok Shin, Hyun-ha Hwang(Hanyang Univ.,
Korea), Byung-sung Bae(Hoseo Univ., Korea), and
Sung-ho Kim(LG Innotek Co. Ltd., Korea)
P1-83 Design Considerations on Partition of SOP,
CMOS and PCB Technologies for Mobile DisplaySystem Implementation 798
Seung Yong Lee and Jae Hee You(Hongik Univ.,
Korea)
P1-84 Hardware Architecture of a Wavelet based
Multiple Line Addressing Driving System for
Passive Matrix Displays 802
San Lam and Herbert De Smet(Ghent Univ., Belgium)
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P1-85 High Speed Parallel Fault Detection Design for
SRAM on Display Panel 806
Kyu Ho Jeong and Jae Hee You(Hongik Univ.,
Korea)
P1-86 An Efficient Frame Rate Up-conversion Method
with Adaptive Motion Estimation and
Compensation for Mobile
Projection Displays 810
Jong Ok Lee, Seul Ki Jang, Qiao Song Chen, and
Choon-Woo Kim(Inha Univ., Korea)
P1-87 A Hybrid Hardware Architecture for LCD
Overdrive Frame Buffer Reduction 814
Jiyong Choi, Ansun Jeong, and Jungeun
Baek(Dawin Technology Inc., Korea)
P1-88 Novel Impulsive Driving Schemes for 120Hz LCD
Panels 818
Hyoungsik Nam, Jaeho Oh, Byung Hyuk Shin,
Kwan Young Oh, Brian H. Berkeley, Nam Deog
Kim, and Sang Soo Kim(Samsung Electronics Co.
Lid., Korea)
P1-89 Design of Integrated a Si:H Gate Driver Circuit
with Low Noise for Mobile TFT-LCD 822
Yong-hui Lee, Yong-ju Park, Jin-oh Kwag,
Hyimg-guel Kim(Samsung Electronics Co. Ltd.,
Korea), and Junsin Yi(Sungkyunkwan Univ., Korea)
P1-90 Response Time Compensation of LCD with
Integrated Thermal Sensor 825
Ki-Chan Lee, Yun-Jae Park, Ik-Hyun Aim,
Kyung-Uk Choi, and Seung-Hwan Moon(Samsung
Electronics Co. Ltd., Korea)
P1-91 A High-Speed and High-Accurate Common
Source Type Analog Buffer Circuit using LTPS
TFTs for TFT-LCDs 829
HyuirWook Kim, ChuirWon Byun, and OlrKyong
Kwon(Hanyang Univ., Korea)
P1-92 Low Power and Small Area Source Driver usingLow Temperature Poly-Si(LTPS) Thin Film
Transistors(TFTs) for Mobile Displays 833
Sueng-Kyun Hong, Chun-Won Byun, Joong-Sun
Yoon, and OlrKyong Kwon(Hanyang Univ., Korea)
P1-93 A Novel Digital Driving Method for AM-OLED - 837
Seung-Woo Lee, Jae Won Choi, Jin Jang(Kyung Hee
Univ., Korea), and Hoon-Ju Chung(Kumoh Nat'l
Inst, ofTechnology, Korea)
P1-94 The Research on Vertical Block Mura in
TFT-LCD 841
Chunping Long, Wei Wang, and Hongjiang
Wu(Beijing BOE Optoelectronics Technology Co.
Ltd., China)
P1-95 Study of Point Defects Caused by a Thin
Contamination Layer in a-Si TFT-LCD 845
Jae Young Oh, Jae Kyun Lee, Moung Su Yang, and
In Byeong Kang(LG. Philips LCD Co. Ltd., Korea)
P1-96 High Performance Thin Film Transistor with ZnO
Channel Layer Deposited by DC Magnetron
Sputtering 849
Yeon-Keon Moon, Dae-Yong Moon, Sang-Ho Lee,
Ki-Hoon Park(Hanyang Univ., Korea), Chang-Oh
Jeong(Samsung Electronics Co. Ltd., Korea), and
Jong-Wan Park(Hanyang Univ., Korea)
P1-97 New Cellulose-Based Photopolymer with High
Thermal and UV Stability 853
Han-Dong Cho(Hoseo Univ., Korea), Seo-Kyu
Park(NDIS Corp., Korea), Chul-Gyu Jhun,
Soon-Bum Kwon(Hoseo Univ., Korea), Yu. Kurioz,
Yu. Reznikov, and I. Gerus(Nat'l Academy of
Science, Ukraine)
P1-98 The Durability of LCD Glass Substrate in Dry
Etching 857
Tomoki Yanase, Shinkichi Miwa, and Hiroki
Yamazaki(Nippon Electric Glass Co. Ltd., Japan)
P1-99 Characterization of ZnO for Transparent Thin
Film Transistor by Injection Type Delivery
System of ALD 860
Woon-Seop Choi(Hoseo Univ., Korea)
P1-100 Interaction Between Transparent Dielectric and
Bus Electrode for Heating Profile in PDP -— 864
Sangwook Lee, Dongsun Kim, Mikyung Park,
Seongjin Hwang, and Hyungsun Kim(Inha Univ.,
Korea)
P1-101 Improvement of Photo-Alignment
Characteristics for Device Applications 867
Yong-Jae Hwang(Hongik Univ., Korea), Kil-Yeong
Choi, Mi-Hie Yi(KRICT, Korea), Sung-Hwan Hong,
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and Dong-Myung Shin(Hongik Univ., Korea)
P1-102 Low-Temperature Processable Polyimide Gate
Insulator and Hybridization Approach for HighPerformance Pentacene Thin Film Transistor- 871
Taek Aim, Jin Woo Kim, and Mi Hye Yi(KRICT,
Korea)
P1-103 Direct Writing of Semiconducting Oxide Layer
using Ink-Jet Printing 875
Sul Lee, Youngmin Jeong, and Jooho Moon(Yonsei
Univ., Korea)
P1-104 Optical and Dielectric Properties Dependent on
Glass Composition for Photolithographic
Process of Barrier Ribs in PDP 878
Juyeon Won, Jongwoo Kim, Seongjin Hwang,
NamsukKim, and Hyungsun Kim(Inha Univ., Korea)
P1-105 The Effect of Ink Adhesion on Color Filter Glass
Substrates by Different Plasma Treatment — 882
Ko-Shao Chen and Sheng-Hsiang Hsu(Tatung Univ.,
Taiwan), Yu-Cheng Lo, Pei-Yu Liu, Jiun-Ming
Wang, and Huai-An Li(Chunghwa Picture Tubes,
Ltd., Taiwan)
P1-106 Effect of Liquid Crystal Structures on
Polymerization-induced Phase Separation
Behavior by Simultaneous Resistivity and
Turbidity Measurement 886
Sucheol Park, Sangsub Lee, and Jin Who
Hong(Chosun Univ., Korea)
P1-107 Synthesis and Characterization of a Novel TTF
Derivative 890
Lei Wang, and Myong-Hoon Lee(Chonbuk Nat'l
Univ., Korea)
P1-108 New Liquid Crystal Photoalignment Materials
Based on Photosensitive Polyimides HavingLong Alkoxy Cinnamate Chains 893
Jingjing Wu, Seokjin Jeong, Seung Hee Lee, and
Myong-Hoon Lee(Chonbuk Nat'l Univ.)
P1-109 Carbon Nanotube Based Transparent Electrodes
for Flexible Displays using Liquid CrystalDevices 897
Jun-Ho Shin, H. C. Lee, J. H. Lee, S. M. Park, P. S.
Alegaonkar, and J. B. Yoo(Sungkyunkwan Univ.,
Korea)
P1-110 Surface Modification of Thin Film using
Trimethylchlorosilane
Vaporization Treatment 900
Byoung-Kwon Choo, Ki-Hwan Kim, Na-Young
Song, Jung-Su Choi, Kyu-Chang Park, Jin
Jang(Kyung Hee Univ., Korea), Jin-Ook Kim,
Yeon-Heui Nam, Gi-Sung Chae, and In-Jae
Chung(LG.Philips LCD Co., Ltd., Korea)
P1-111 Study of Surface State Density of Hydrogenated
Amorphous Silicon Thin-film Transistors byAdmittance Spectroscopy 904
Ming-Ta Hsieh, Chan-Ching Chang, Jenn-FangChen, Hsiao-Wen Zan, Kuo-Hsi Yen(Nat'l Chiao
Tung Univ., Taiwan), Ching-Chieh Shih, Chih-Hsien
Chen, Yeong-Shyang Lee, Hsin-Chih Chiu(AU
Optronics Corp.,Taiwan)
P1-112 Electrostatic Discharge in TFT Manufacturing
Process 908
Chunping Long, Xinxin Lee, and Wei Wang(BeijingBOE Optoelectronic Technology Co. Ltd., China)
P1-113 High Performance of Crystallization for LPTS
TFTs using Solid Green Laser 911
K. Nishida, R. Kawakami, J. Izawa, N. Kawaguchi,
F. Matsuzaka, M. Masaki, M. Morita, A.
Yoshinouchi, and Y. Kawasaki(IHI Corp., Japan)
P1-1U Gate Dielectric Si02 Film Deposition on Poly
Silicon using UV excited Ozone Gas without
Heating Substrate 915
Naoto Kameda, Tetsuya Nishiguchi, Yoshiki
Morikawa, Mitsuru Kekura(Meidensha Corp.,
Japan), Hidehiko Nonaka, and Shingo Ichimura
(AIST, Japan)
P1-115 Development of Laser Thermal
Printing Device 919
Illhyun Park, Jin Hyuk Kwon, and Jonghoon
Yi(Yeunganam Univ., Korea)
P1-116 Analysis and Interpretation of Electric
Characteristics of Dry Etching Process for the
TFT-LCD Fabrication 922
O-Dae Kwon, Han-Bum Kwon, Su-Jin Yoo,
Jong-Keun Kim, Jae-Hong J eon, Kang-Woong Lee,
HeeHwan Choe, Jong-Hyun Seo(Korea Aerospace
Univ., Korea), Dae-Jin Seong, Jung-Hyun Kim, and
Yong-Hyeon Shin(KRISS, Korea)
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P1-117 A Study on Wet Etch Behavior of Zinc Oxide
Semiconductor in Acid Solutions 926
Bo-Hyun Seo, Sang-Hyuk Lee, Jea-Hong Jeon,
HeeHwan Choe, Kang-Woong Lee, Yong Uk Lee
(Hankuk Aviation Univ., Korea), and Jong Hyun Seo
(KETI, Korea)
P1-118 Doping Control of Belt Source Evaporation
Techniques for Large Size AMOLED 930
Chang Hun Hwang(OLEDON Co.Ltd., Korea)
P1-119 Development of Internal Linear Inductively
Coupled Plasma Sources for Large Area Flat
Penal Display Processing 933
Jong Hyeuk Lim, Jung Kyun Park, Kyong Nam
Kim, and Geun Young Yeom(Sungkyunkwan Univ.,
Korea)
P1-120 CNT Emitter Coated with Titanium Oxide
Nanoparticles for FED Application 937
Jong-Ung Kim, Byong-Hwan Ryu (KR1CT, Korea),
Heesung Moon, Jaemyeong Kim(Samsung SDI
Co.Ltd., Korea), Hang No Cho, Seoung UkPark(IMD
Co.Ltd., Korea), Youngmin Choi(KRICT, Korea)
P1-121 A New Cost-Effective Optical Plate for High
Performance LCD-TVs 940
Juhwa Ha, Jungwook Paek,Taeseok Jang,Jinsung
Choi(Samsung Electronic Co. Ltd., Korea), and
Youngsub Jung(Bayer Sheet Korea, Korea)
P1-122 Electrooptic Characteristics of Flat Fluorescent
Lamps Depending on the Driving Conditions — 944
Young-Youb Kim, Jae-Young Choi, and Jae-Hyeon
Ko(Hallym Univ., Korea)
P1-123 [Late News] Optimization of Chiral Dopant and
Rubbing Direction in Liquid Crystal Display— 948
Kyung-Jun Lee, Jun-Back Park, Jong-Min Park,
Hoe-Chang Kim, Jae-Ho Seo, Yoo-Jin Kim, and
Byung-Hwan Jung(BOE HYDIS Technology Co.
Ltd., Korea)
P1-124 [Late News] Monte Carlo simulation of
interacting liquid crystal and substrate using
rigid model molecules 952
Yosuke Hyodo, Tomonori Koda(Yamagata Univ.,
Japan), Yuichi Momoi, Woo Yeol Kim(LG.Philips
LCD Co. Ltd., Japan), AkihiroNishioka, Ken Miyata,
and Go Murasawa(Yamagata Univ., Japan)
P1-125 [Late News] Electro-optical Properties of
Polymer-stabilized Nematic Pi Cells 954
Chi-Yen Huang, Ri-Xin Fung, and Ying-Ging
Lin(Nat'l Changhua Univ. of Education, Taiwan)
P1-126 [Late News] Electrical Characteristics of
Bottom-Contact OrganicThin-FilnrTransistors
Inserting Adhesion Layer Fabricated byVapor
Deposition Polymerization and Ti Adhesion Metal
Layer 958
II Houng Park, Gun Woo Hyung, Hak Bum Choi,
and Young Kwan Kim(Hongik Univ., Korea)
P1-127 [Late News] Study about High Temperature
Operating Test Result for Thin Film-Transistor
Electro Phoretic Display on Plastic 962
Sun Young Kim, Woo Jae Lee(Samsung Electronics
Co. Ltd., Korea), and Jun-Sin Yi(Sungkyunkwan
Univ., Korea)
P1-128 [Late News] Enhancement of on-axis Luminance
of Flat Fluorescent Lamps (FFls) by
using Micro-lens Arrays 965
Ji-Hee Park, Ji-Young Lee, and Jae-Hyeon
Ko(Hallym Univ., Korea)
P1-129 [Late News] Electronic Ink using the
Electrophoretic High Mobility Particles 969
Chul Am Kim, Seung-Youl Kang, Gi Heon Kim,
Seong Deok Ahn, Jiyoung Oh, and Kyung Soo
Suh(ETRI, Korea)
P1-130 [Late News] Pentacene Thin-Film Transistors
with Polyimide/Si02 Dual Gate Dielectric —- 972
Hirokazu Imahara(Tokyo Inst, ofTechnology,
Japan), Woo Yeol kim, and Yasuhisa Oana
(LG.Philips LCD Co. Ltd., Japan), and Yutaka
Majima(Tokyo Inst, ofTechnology, Japan)
31. New LCD Modes
31-1 [Invited] Tandem Reflective LCD and OLED - 977
Jiun-Haw Lee(Nat'l Taiwan Univ., Taiwan), Haiqing
Xianyu, Zhibing Ge, Kou-Chen Liu(Univ. of Central
Florida, USA), and Shin-Tson Wu(Univ. of Chang
Gung, Taiwan)
31-2 [Invited] Polarizer-free Liquid Crystal Devices- 980
Yi-Hsin Lin(Nat'l Chiao Tung Univ., Taiwan),
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Table of Contents
33. OLED Device StructureHongwen Ren, Yung-Hsim Wu, and Shin-Tson
Wu(Univ. ofCentral Florida, USA)
31-3 [Invited] Single-Layer Color Cholesteric Liquid
Crystal Displays 982
Shin-Ying Lu, Yirhui Lin, and Liang-Chy
Chien(Kent State Univ., USA)
31-4 [Invited] Materials Aspects for Fast Switchable
NLC/FLC Devices 986
Wolfgang Haase, Vladimir Bezborodov, Valery
Lapanik, and Fedor Podgornov(Darmstadt Univ. of
Technology, Germany)
32. Display Electronics II
33-1 [Invited] High Performance OLEDs with a New
Device Structure 1011
Jeoung Kwen Noh, Min Soo Kang, Jong Seok Kim,
Jung Hyoung Lee, Yun Hye Ham, Jung Bum Kim,
and Sehwan Son(LO Chem., Korea)
33-2 Novel OLED Structure Allowing for the In-situ
Ohmic Contact and Reduction of Charge
Accumulation in the Device 1014
Won Jun Song, Boris Kristal, Chong Hoon Lee,
Yeun joo Sung, Sung Soo Koh, Mu Hyun Kim,
Seong Taek Lee, Hye Dong Kim(Samsung SDI Co.,
Ltd., Korea), ChangHee Lee(Seoul Nat'l Univ.), and
Ho Kyoon Chung(Samsung SDI Co.Ltd., Korea)
32-1 [Invited] Design Issues of Digital Display
Interface 993
Deog-Kyoon Jeong and Do-Hwan Oh(Seoul Nat'l
Univ., Korea)
32-2 Novel Method of Color Correction LUT
Generation for LCDs 997
Jae Won Jeong, Hoi Sik Moon, Brian H. Berkeley,and Sang Soo Kim(Samsung Electronics Co. Ltd.,
Korea)
32-3 NewX-Y Channel Driving Method for LED
Backlight System in LCD TVs 1001
Daeyoun Clio, Won Sik Oh, Kyu Min Cho, Gun
Woo Moon(KAIST, Korea), Byungchoon Yang, and
Taeseok Jang(Samsung Electronics Co.Ltd., Korea)
32-4 A Low Power Source Driver of Small Chip Area
for QVGATFT-LCD Applications 1005
Nan-Xiong Hung(Feng Chia Univ., Taiwan),
Wei-Shan Jiang(Nat'l Chung Hsin Univ., Taiwan),
Bo-Cang Wu, Ming-Yuan Tsao(Feng Chia Univ.,
Taiwan), Han-Wen Liu, Chen-Hao Chang(Nat'l
Chung Hsin Univ., Taiwan), Miin-Shyue
Shiau(Graduate Inst, of Electrical and
Communication Engineering,Taiwan), Hong-ChongWu, Ching-Hwa Cheng, and Don-Gey Liu(Feng
Chia Univ., Taiwan)
33-3 High Efficiency in Phosphorescet Organic
Light-Emitting Doides using Carbazole Type
Exciton Blocking Layer 1019
Sung hyun Kim, Jyongsik Jang(Seoul Nat'l Univ.,
Korea), and Jun Yeob Lee(Dankook Univ., Korea)
33-4 An Inverted Bottom Emission Organic Light
Emitting Device with a New Electron Injection
Layer 1023
YouJong Lee, JooHyung Kim, SoonNam Kwon, and
MunPyo Hong(Korea Univ., Korea)
34. Human Factor I
34-1 [Invited] Temporal Factors of Human Depth
Perception 1029
Satoshi Shioiri(Tohoku Univ., Japan)
34-2 [Invited] The Effects of Three Dimensional
Stimulus Configuration on Self-Motion
Perception Induced by
Large Visual Display 1031
Shinji NakamurafNihon Fukushi Univ., Japan)
34-3 An Improvement Method of Color Image using
Saturation Extension 1035
Kyoung-Ok Yang, Jong-Ho Yun, Hwa-Hyun Cho,
and Myung-Ryul Choi(Hanyang Univ., Korea)
34-4 Motion Blur Analysis by Gabor Patch 1039
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Table of Contents
Koichi Oka and Daisuke Oka(Nanosoftware Ltd.,
Japan)
35. Emission Material & Applications
35-1 [Invited] Field Emission Display and Backlight
for LCD using Printed Carbon Nanotubes-- 1045
Yong Churl Kim, D. S. Jung, B. K. Song, M. J. Bae,
H. S. Kang, I. T. Han, Jong Min Kim(SAIT), Y. C.
Choi, M. 1. Hwang, I. H. Kim, and J. H.
Park(Samsung SDI Co. Ltd., Korea)
35-2 [Invited] Low Work Function and Sharp Field
Emitter Arrays by Transfer Mold Fabrication
Method 1049
Masayuki Nakamoto, Genta Sato, and Kohji
Shiratori(Shizuoka Univ., Japan)
35-3 [Invited] Recycle of CRT Glass Cullet
S. H Chang(Kumoh Nat'l Inst, of Technology,
Korea)
35-4 The Stress Positioning Control Method for Slim
CRTs Glass Design using FEM 1053
Yoing-ik Hwang and Tae-hoon
Lee(LG.Philips-Displays Co. PCT, Korea)
36-4 A Study on Negative Bias Temperature
Instability in ELA Based Low-Temperature
Polycrystalline Silicon Thin-Film Transistors
1075
Kiju Im, Byoung-Deog Choi, Hye Hyang Park, Yun
Gyu Lee, Hui Won Yang, and Hye Dong Kim
(Samsung SDI Co.Ltd., Korea)
36. Poly Si TFTs
36-1 [Invited] Thin-Beam Excimer
Laser Annealing 1061
Woo Boon Ang(TCZ Pte. Ltd.,Singapore), Dirk
Rottweiler, and David S. Knowles(TCZ LLC, USA)
36-2 [Invited] Electrical Instabilities in P-channel
Polysilicon TFTs: Role of Hot Carrier and
Self-heating Effects 1065
G. Fortunato, P. Gaucci, L. Mariucci, A. Pecora, and
A. Valletta(IFN-CNR, Italy)
36-3 6 Mask LTPS CMOS Technology for AMLCD
Application 1071
Soo-Jeong Park, Seok-Woo Lee, Myoung Kee Baek,
Yong Su Yoo, Chang Yeon Kim, Chang-Dong Kim,
and In Byeong Kang(LG.Philips LCD
Co.Ltd.,Korea)
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