유기연성재료물성연구실
Kyung Hee University
Brain Korea 21 Four 참여 연구실
대학원생 및 학부연구생 수시 모집 (박사/석사/석박사연계)
Research
Principle Investigator
최석원 교수는 2007년 도쿄공업대학교 (Tokyo Institute of Technology)에서 공학박사 학위를 취득하였으며, 2008년부터 경희대학교 교수로 재직하고 있습니다. 그는 한국정보디스플레이학회 이사, 한국공업화학회 이사,한국과학기술단체총연합회 우수논문상 (2016) 수상, 정보디스플레이학회 우수논문상(2018) 수상, 경희대학교 공과대학 우수강의상(2008) 수상 등 다수의 학술 및 교육 활동을 수행하고 있습니다.
- 박사: 도쿄공업대학 유기 및 고분자물질 전공 (2007)
- 석사: 도쿄공업대학 유기 및 고분자재료 전공 (1998)
- 학사: 한양대학교 섬유공학과 (1995)
Suk-Won Choi is currently a professor in Department of Advanced Materials Engineering for Information & Electronics and the director of the Integrated Education Institute for Frontier Science & Technology (BK21 Four) at Kyung Hee University in Korea. He obtained his B.S. and M.S. degrees from Hanyang University and Tokyo Institute of Technology in 1995 and 1998, respectively. After working as a senior researcher at LG. Philips LCD during 1998~2003, he obtained his Ph.D. degree from Tokyo Institute of Technology in 2007. His research interests are focused in the area of the self-assembly in liquid crystalline materials and their applications in photonic crystal systems, electro-optical systems, circularly polarized luminescent systems, and energy harvesting systems.
Education
- Ph.D., Tokyo Institute of Technology, Dep. of Organic and Polymeric Materials, Japan, 2007
- M.S., Tokyo Institute of Technology, Dep. of Organic and Polymeric Materials, Japan, 1998
- B.S, Hanyang University, Department of Textile Engineering, Korea, 1995
Professional Experience
- Professor, Kyung Hee University, Korea, 2017 – present
- Associate Professor, Kyung Hee University, Korea, 2012 – 2017
- Assistant Professor, Kyung Hee University, Korea, 2008 – 2012
- Visiting Scholar, Stevens Institute of Technology, USA, 2014-2015
- Research Fellow, JST, Japan, 2007-2008
- Senior Researcher, LG Display, Korea, 1998 – 2003
Members
Students
이재진 박사과정
경희대 정보전자신소재공학과 학사/경희대 정보전자신소재공학과 프런티어소재융합전공 석사
문태웅 석사과정
경희대 정보전자신소재공학과 학사
Alumni
News
[축하] 박준성학생 및 최용준학생 석사학위 취득
석사과정인 박준성학생 및 최용준학생이 석사학위를 취득했습니다.
22/02/2024[축하] 제24회 액정학술대회 우수토론상 수상
본 연구실 석사과정인 박준성 학생이 제24회 액정학술대회에서 우수토론상을 수상하였습니다. 축하합니다!
16/01/2024[축하] 본 연구실 연구성과 Applied Materials & Interfaces 에 게재 확정!
본 연구실 석사과정인 박준성 학생과 박사과정인 이재진 학생이 공동 제1저자인 논문이 ACS Applied Materials & Interfaces 에 게재확정 되었습니다. 수고 많이 하였습니다. 앞으로도 건투를 빕니다!
11/01/2024[축하] 본 연구실 연구성과 ACS Nano 에 게재 확정!
본 연구실 석사과정인 최용준 학생과 박사과정인 이재진 학생이 공동 제1저자인 논문이 ACS Nano 에 게재확정 되었습니다. 수고 많이 하였습니다. 앞으로도 건투를 빕니다!
21/11/2023상욱이 출국
본 연구실 석사 출신인 배상욱군이 미국의 University of Michigan 에 박사과정 진학 차, 출국하였습니다. 건투를 빕니다.
31/07/2023[축하] 박동선 학생 석사학위 취득
박동선학생이 석사학위를 무사히 취득하였습니다. 축하합니다.
15/02/2023[축하] 배상욱 졸업생 Univ. of Michigan 박사과정 입학 확정
본 연구실 졸업생인 배상욱 학생의 Univ. of Michigan 박사과정 입학이 확정되었습니다. 2023년 9월에 입학 예정입니다.
15/02/2023박준성, 최용준 학생 RIKEN 파견
석사과정인 박준성, 최용준 학생이 2/15부터 2/28까지 일본 RIKEN에 파견되어 공동연구를 진행합니다.
14/02/2023이재진학생 (박사과정) RIKEN 파견
2022년 12월1일 부터 2023년 2월28일까지 3개월간일본 RIKEN에 파견되었습니다. 좋은 성과 기대합니다!
01/12/2022[축하] 김주용학생 석사학위 취득
김주용학생이 석사과정을 졸업하였습니다. 축하합니다.
17/08/2022[축하] 본 연구실 연구성과 Nano Energy 에 게재 확정!
본 연구실 석사과정인 배상욱 학생의 논문이 Nano Energy 에 게재확정 되었습니다. 수고 많이 하였습니다. 앞으로도 건투를 빕니다!
더 보기03/12/2021[축하] 성용이 박사학위 취득
본 연구실 석사과정 출신인 조성용군이 일본 Osaka 대학에서 박사학위를 취득하였습니다. 학위취득 후, Osaka대학의 연구실에서 박사후 연구원으로 연구자로서의 첫발을 디딥니다.
20/04/2021[축하] 이재진, 박동선 학생 졸업
석사과정 이재진학생과 학부 박동선학생이 무사히 졸업하였습니다. 졸업을 축하합니다. 이재진학생은 본 연구실 박사과정으로, 박동선학생은 석사과정으로 각 각 진학합니다.
더 보기17/02/2021[축하] 4단계 두뇌한국 (Brain Korea) 21 사업 최종 선정
본 프런티어소재융합교육사업단이 4단계 두뇌한국 (Brain Korea) 21 사업 최종 선정되었습니다.
더 보기02/11/2020[축하] 김주용학생 입학
김주용학생이 석사1기 학생으로 입학하였습니다.
01/09/2020[축하] 석사과정 최현준 학생 졸업
최현준 학생이 석사학위를 취득하였습니다. 최현준 학생은 박사학위 취득을 위하여 미국유학을 준비 중입니다. 부디 건강히 뜻한바 다 이루기를 기원합니다.
더 보기19/02/2020Inside Front Cover 논문 선정
Advanced Functional Materials에 게재한 본 연구실의 연구성과가 Inside Front Cover 논문으로 선정되었습니다.
더 보기26/08/2019[게재확정] Advanced Functional Materials
Advanced Functional Materials에 투고한 논문이 게재 확정되었습니다.
더 보기26/05/2019Researcher Track: Undergradute Research Assistant (URA) 모집
2019년 유기연성재료물성연구실 Researcher Track: Undergradute Research Assistant (URA) 모집
더 보기01/05/2019[축하] 2019 공업화학회 춘계학술대회 우수포스터논문발표상 수상
2019년 5월1일부터 3일까지 부산 BEXCO에서 열린, 2019 공업화학회 춘계학술대회에서 석사과정인 최현준학생이 우수포스터논문발표상을 수상하였습니다.
더 보기03/05/2019[축하] 제14회 JID 우수논문상 수상
석사과정 배재현 학생이 제14회 JID 우수논문상을 부산에서 열린 IMID 2018에서 수상하였습니다. 논문명: Robust andmonodomain-like polymer-stabilized simple cubic blue phase with red, green, and blue reflective colors
더 보기29/08/2018[축하] 석사과정 배재현 학생 졸업
석사과정 배재현 학생이 무사히 석사과정을 졸업하였습니다. 축하합니다. 배재현 학생은 졸업 후, Electroptical 재료 분야의 세계적인 석학인 일본 Kyushu Univ.의 Prof. Adachi 연구실의 박사과정으로 진학합니다.
더 보기22/08/2018ILCC 2018 (International Liquid Crystal Conference 2018) in Kyoto, Japan
일본 교토에서 열린 ILCC 2018에 연구실 멤버 모두가 참석하였습니다. 오래간만에 본 연구실 졸업생으로 현재 Osaka대에서 박사과정 중인 조성용 학생도 만나 좋은 시간 보냈습니다.
더 보기23/07/2018배재현 석사과정 (4기) 석사 공청회
배재현 석사과정 (4기) 석사 공청회가 무사히 잘 마무리되었습니다. 지난 2년간 수고 많이 했습니다.
28/05/20182018학년1학기 개강 모임
2018학년도 1학기 본 연구실 개강 모임을 했습니다. 석사과정으로 입학 한 최현준학생을 환영하는 자리였으며, 졸업생인 박경원 삼성디스플레이 선임도 바쁜 시간을 내어 참석하여 주었습니다.
더 보기08/03/2018[축하] 석사과정 전성욱 학생 졸업
석사과정 전성욱 학생이 무사히 석사과정을 졸업하였습니다. 축하합니다. 전성욱 학생은 LG화학 근무 중입니다.
13/02/20182018년 새해가 밝았습니다.
2018년 새해가 밝았습니다. 새해 복 많이 받으십시오. 올 일년간의 본 연구실에서의 좋은 연구 성과를 기대합니다.
01/01/2018[논문게재] RSC Advances 에 투고한 논문이 게재 확정되었습니다.
본 논문은 본 연구실 석사과정인 김병천군이 제1저자의 논문으로 일본의 도요타이화학연구소 및 영국의 Durham 대학과의 공동 연구의 성과입니다.
22/12/2017[축하] LG화학 입사 확정
2018년 2월 석사과정 졸업 예정인 전성욱군의 LG화학 입사가 확정되었습니다. 축하합니다.
08/12/2017[축하] LG화학 입사 확정
2016학년도 본 연구실 석사졸업생인 김기범군의 LG화학입사가 확정되었습니다. 축하합니다.
08/12/201716th International Conference on Ferroelectric Liquid Crystals , 4 December - 7 December, 2017, Hong Kong
12월4일에서 7일까지 홍콩 HKUST에서 열리는 16th International Conference on Ferroelectric Liquid Crystals 에 본 연구실 석사과정인 배재현학생과 김병천학생이 연구 성과를 발표합니다.
더 보기04/12/2017전성욱 석사과정 (4기) 석사 공청회
전성욱 석사과정 (4기) 석사 공청회가 무사히 잘 끝났습니다. 지난 석사과정 동안 수고 많이 했습니다.
24/11/2017홈페이지 재오픈!
경희대학교 공과대학 정보전자신소재공학과 유기연성물성연구실의 홈페이지가 새로운 디자인으로 업그레이드 되었습니다.
17/11/2017Publications
2024
103. Efficient full-color daytime radiative cooling with diffuse-reflection-dominant cholesteric liquid crystals
Sangwok Bae , Minjeong Kim , Gumin Kang, Hong-Sub Lee, In Soo Kim, Suk-Won Choi , Jin Gu Kang *, Chemical Engineering Journal 483 (2024) 149245.
102. Electrospun Poly L-Lactic Acid Nanofiber Webs Presenting Enhanced Piezoelectric Properties
Seung Kwan Hong, Jae-Jin Lee, Kap Jin Kim, and Suk-Won Choi *, Polymers 2024, 16, 347.
101. Physical Unclonable Functions employing Circularly Polarized Light Emission from Nematic Liquid Crystal Ordering directed by Helical Nanofilaments
Jun-Sung Park, Jae-Jin Lee, Yong-Jun Choi, Tae-Woong Moon, Seunghyun Kim, Seungwoo Cho, Haeun Kang, Dong Ha Kim *, Jongwook Park *,, and Suk-Won Choi *, ACS Applied Materials & Interfaces Accepted.
100. Circularly Polarized Light Emission from Nonchiral Perovskites Incorporated into Nanoporous Cholesteric Polymer Templates
Yong-Jun Choi, Jae-Jin Lee, Jun-Sung Park, Haeun Kang, Minju Kim, Jeongwon Kim, Daichi Okada, Dong Ha Kim,*, Fumito Araoka,* and Suk-Won Choi*, ACS Nano 2024, 18, 909−918.
99. Solution-Processable liquid crystalline organic semiconductors based on 6-(Thiophen-2-yl)benzo[b]thiophene for organic thin-film transistors
Jaesung Kim, Jihae Ahn, Minhwi Son, Yuseong Kim , Jae-Jin Lee, Dongkyu Kim, Ming-Chou Chen, Suk-Won Choi , Choongik Kim,*, Sungyong Seo, Organic Electronics 124 (2024) 106956
2023
98. Fabrication of a nano-segregated intermediate phase consisting of a low molecular nematogen and a strong polar compound
Dong-Sun Park, Suk-Won Choi, Mol.Cryst.Liq.Cryst. 2023, 761(1), 1–6
97. Effect of Nematogen Doping in Bent‐Core Molecular Systems with a Helical Nanofilament and Dark Conglomerate
Jae‐Jin Lee, Suk‐Won Choi *, Materials 2023, 16, 548.
2022
96. Chiroptical Performances in Self-Assembled Hierarchical Nanosegregated Chiral Intermediate Phases Composed of Two Different Achiral Bent-Core Molecules
Jae-Jin Lee, Sangsub Kim , Hiroya Nishikawa , Yoichi Takanishi , Hiroshi Iwayama , Changsoon Kim *, Suk-Won Choi * and Fumito Araoka, Int. J. Mol. Sci. 2022, 23, 14629.
95. Chiroptical Characteristics of Nanosegregated Phases in Binary Mixture Consisting of Achiral Bent-Core Molecule and Bent-Core Base Main-Chain Polymer
Ju-Yong Kim , Jae-Jin Lee and Suk-Won Choi *, Polymers 2022, 14, 2823
94. DEVELOPMENT OF COLORED PEROVSKITE SOLAR CELLS USING CHOLESTERIC HELICOIDAL SUPERSTRUCTURES
Sangwok Bae, Young Wook Noh, Dong-Sun Park, Myoung Hoon Song *, Suk-Won Choi * , Nano Energy 2022, 93, 106801
2021
93. Optical haze performance of micro-sized segregated liquid crystals embedded in a polymer matrix consisting of a thiol-ene prepolymer and a multi-functional acrylate
Ju-Yong Kim and Suk-Won Choi* Polymers, 2021, 13, 4421.
92. Liquid Crystalline Cholesteric Reflective Layers for Colored Silicon-Based Solar Cells
Sangwok Bae, Dong-Sun Park and Suk-Won Choi *, Crystals 2021, 11, 1336.
91. Control of the Induced Handedness of Helical Nanofilaments Employing Cholesteric Liquid Crystal Fields
Ju-Yong Kim , Jae-Jin Lee, Jun-Sung Park, Yong-Jun Choi and Suk-Won Choi *, Molecules 2021, 26, 6055.
2020
90. Preferential Circularly Polarized Luminescence from a Nano-Segregated Liquid Crystalline Phase Using a Polymerized Twisted Nematic Platform
Jae-Jin Lee and Suk-Won Choi *, Polymers 2020, 12, 2529.
89. Enhancement of Luminescence Dissymmetry Factor in Nano-Segregated Phase Generated by Phase Separation between Helical Nanofilaments and Liquid-Crystalline Smectic A Phase
Jae-Jin Lee and Suk-Won Choi *, Crystals 2020, 10, 952.
88. Inverse Helical Nanofilament Networks Serving as a Chiral Nanotemplate
Jae-Jin Lee, Byeong-Cheon Kim, Hyeon-Joon Choi, Sangwok Bae, Fumito Araoka* and Suk-Won Choi*, ACS Nano 2020, 14, 5, 5243–5250
2019
87. Development of a liquid crystal laser using a simple cubic liquid crystalline blue phase platform
Hyeon-Joon Choi, Jae-Hyun Bae, Sangwok Bae, Jae-Jin Lee, Hiroya Nishikawa, Fumito Araoka, and Suk-Won Choi *, RSC Advances, 2019, 9, 32922–32927
86. Circularly Polarized Luminescence induced by Chiral Super Nanospaces
Byeong-Cheon Kim, Hyeon-Joon Choi, Jae-Jin Lee, Fumito Araoka* and Suk-Won Choi*, Advanced Functional Materials, 2019, 29, 1903246
2018
85. Micro-Segregated Liquid Crystal Haze Films for Photovoltaic Applications: A Novel Strategy to Fabricate Haze Films Employing Liquid Crystal Technology
J.-H. Bae, E. Jung, Y. Nam, B.-C. Kim, H.-J. Choi, H. G. Kim, M. H. Song and S.-W. Choi*, Materials 2018, 11,2188.
84. Photomodulating chiroptic behaviors in nanosegregated mesophase from mixture system consisting of nonchiral bent-core and photo-responsive rod-like mesogens
Sung-Wook Jeon, Hyeon-Joon Choi, Jae-Hyun Bae, Byeong-Cheon Kim and Suk-Won Choi*, J. Inf. Disp. 2018,19, 129-133.
83. Effect of terminal chain length on the helical twisting power in achiral bent-core molecules doped in a cholesteric liquid crystal
Byeong-Cheon Kim, Martin Walker, Seong-Yong Jo, Mark R. Wilson, Hideo Takezoe, and Suk-Won Choi*, RSC Advances, 2018, 8, 1292 - 1295.
2017
82. Enhancement of the helical twisting power with increasing the terminal chain length of nonchiral bent-core molecules doped in a chiral nematic liquid crystal
Seong-Yong Jo, Byeong-Cheon Kim, Sung-Wook Jeon, Jae-Hyun Bae, Martin Walker, Mark Wilson, Suk-Won Choi* and Hideo Takezoe*, RSC Adv., 2017,7, 1932-1935.
81. Nanosegregated Chiral Materials with Self-assembled Hierarchical Mesophases: Effect of Thermotropic and Photoinduced Polymorphism in Rod-like Molecules
Sung-Wook Jeon, Dae-Yoon Kim, Fumito Araoka, Kwang-Un Jeong,* and Suk-Won Choi*, Chem. Eur. J. 2017, 23, 17794 – 17799.
80. Robust and monodomain-like polymer-stabilized simple cubic blue phase with red, green, and blue reflective colors
Jae-Hyun Bae, Byeong-Cheon Kim, Seong-Yong Jo and Suk-Won Choi*, J. Inf. Disp., 2017, 18, 191-197.
79. Polymer Stabilization of Liquid-Crystal Blue Phase II toward Photonic Crystals
Seong-Yong Jo, Sung-Wook Jeon, Byeong-Cheon Kim, Jae-Hyun Bae, Fumito Araoka, and Suk-Won Choi*, ACS Appl. Mater. Interfaces 2017, 9, 8941−8947.
78. Low threshold lasing from heterojunction structure consisting of a dye-doped low-molecular-weight liquid-crystalline Blue phase sandwiched by polymer cholesteric liquid crystal films
Sung-Taek Hur, Seong-Yong Jo, Sung-Wook Jeon, Myoung Hoon Song, and Suk-Won Choi*, Mol. Cryst. Liq. Cryst., 2017, 646, 154-159.
77. Switchable Photonic Crystals Using One-Dimensional Confined Liquid Crystals for Photonic Device Application
Seong Ho Ryu, Min-Jun Gim, Wonsuk Lee, Suk-Won Choi, and Dong Ki Yoon*, ACS Appl. Mater. Interfaces 2017, 9, 3186–3191.
76. Optical measurement of flexoelectric polarisation change in liquid crystals doped with bent-core molecules using hybrid-aligned structure
Dong-Jin Lee, Jun-Chan Choi, Min-Kyu Park, Ji-Sub Park, Amid Ranjkesh, Hyun Chul Choi, Yong Min Ha, Suk-Won Choi, E-Joon Choi, and Hak-Rin Kim*, Liq. Cryst. 2017, 44, 1321–1331.
2016
75. Enhancing and reducing chirality by opposite circularly-polarized light irradiation on crystalline chiral domains consisting of nonchiral photoresponsive W-shaped liquid crystal molecules
Suk-Won Choi* and Hideo Takezoe, Soft Matter, 2016, 12, 7937-7942.
74. Chirality Enhancement in a Cholesteric Liquid-Crystalline Polymer Doped with Non-Chiral W-shaped Molecules
Suk-Won Choi* and Hideo Takezoe, Bull. Korean Chem. Soc. 2016, 37, 1556–1557.
2015
73. ITO-free transparent conductive films based on carbon nanomaterials with metal grid for liquid crystal displays
Seung Won Shin, Yong Un Jung, Ki-Beom Kim, Suk-Won Choi, Seong Jun Kang*, Liq. Cryst. 2015, 42, 954–958
72. Photomodulated Supramolecular Chirality in Achiral Photoresponsive Rod-Like Compounds Nanosegregated from the Helical Nanofilaments of Achiral Bent-Core Molecules
Kibeom Kim, Hanim Kim, Seong-Yong Jo, Fumito Araoka, Dong Ki Yoon*, and Suk-Won Choi*, ACS Appl. Mater. Interfaces, 2015, 7, 22686–22691.
71. A monodomain-like liquid-crystalline simple cubic blue phase II
Kibeom Kim, Sunhwan Kim, Seong-Yong Jo and Suk-Won Choi*, J. Inf. Disp. 2015, 16, 155–160.
70. A well-aligned simple cubic blue phase for a liquid crystal laser
Kibeom Kim, Sung-Taek Hur, Sunhwan Kim, Seong-Yong Jo, Bo Ram Lee, Myoung Hoon Song*, and Suk-Won Choi*, J. Mater. Chem. C, 2015, 3, 5383
69. Enhancement of the polarization properties of reflective composite sheet
Taehyung Kim, Sang Seok Park, Kibeom Kim, Jung Nam Im, Moo Sung Lee, Dae Young Lim, and Suk-Won Choi*, Opt. Comm. 2015, 346, 47–52
68. Uniform Alignment of Liquid Crystalline Cubic Blue Phase II via Rubbing Treatment
Sunhwan Kim, Kibeom Kim, Seong-Yong Jo & Suk-Won Choi*, Mol. Cryst. Liq. Cryst. 2015, 611, 186-191
2014
67. High-transmittance liquid-crystal displays using graphene conducting layers
Yong Un Jung, Kyung-Won Park, Sung-Taek Hur, Suk-Won Choi and Seong Jun Kang*, Liq. Cryst., 2014, 41, 101-105.
66. Thermal phase transition behaviours of the blue phase of bent-core nematogen and chiral dopant mixtures under different boundary conditions
Min-Jun Gim, Gohyun Han, Suk-Won Choi*, Dong Ki Yoon*, Soft Matter, 2014, 10, 8224-8228
65. Reflective composite sheet design for LCD backlight recycling
Taehyung Kim, Kibeom Kim, Eun Soo Lee, Won Young Jeong, Dae Young Lim, and Suk-Won Choi* , Optics Express, 2014, 22, 11175-11181
64. Fiber-based Diffuser Sheet for Liquid Crystal Display Backlight Unit
Taehyung Kim, Eun Soo Lee, Won Young Jeong, Dae Young Lim, and Suk-Won Choi*, J. Opt. Soc. Kor., 2014, 18, 251-255.
2013
63. Pretilt Preference of Liquid Crystals on Ion- Beam- Treated Polyimide Layer Surfaces
P. K. Song, T. Kim, S.-W. Choi, S. S. Kim, J. S. Gwag, Mol. Cryst. Liq. Cryst., 583, 1, 104-108.
62. Liquid crystalline cubic blue phases from a mixture of conventional rod-like nematogen and photoresponsive bent-core molecule
Min-Jun Gim, Kyung-Won Park, Suk-Won Choi*, Optical Materials, 2013, 36, 414-418.
61. Liquid crystalline blue phase II system comprising a bent-core molecule with a wide stable temperature range
Kyung-Won Park, Min-Jun Gim, Sunhwan Kim, Sung-Taek Hur, Suk-Won Choi*, ACS Appl. Mater. Interfaces, 2013, 5, 8025-8029.
60. Active retarder panel used in the twisted nematic mode
Taehyung Kim, Sunhwan Kim, and Suk-Won Choi* , Liq. Cryst, 2013, 40, 1223-1226.
59. Liquid-Crystalline Blue Phase Laser with Widely Tunable Wavelength
Sung-Taek Hur, Bo Ram Lee, Min-Jun Gim, Kyung-Won Park, Myoung Hoon Song *, Suk-Won Choi* , Advanced Matererials, 2013, 25, 3002-3006
58. Liquid crystal devices incorporating transparent Zn, Sn co-doped In2O3 electrodes prepared by direct inkjet-printing of nanosized particles
Kyung-Won Park, Sin-Bi Kang, Jin-A Jeong, Suk-Won Choi, Jihoon Kim, In-Kyu You, Yong Suk Yang, Han-Ki Kim*, Journal of Physics D: Applied Physics, 2013, 46, 145301-1-6.
57. Optical Configuration in a Three-dimensional Active Retarder Panel for the Convenience of Head Tilting
Taehyung Kim, Sunhwan Kim, Suk-Won Choi*, J. Kor. Phys. Soc., 2013, 62, 975-979.
56. Optical configuration of three-dimensional active retarder panel for producing symmetric left- and right- circular polarized light
Taehyung Kim, Sunhwan Kim, Min-Jun Gim, Suk-Won Choi*, J. Kor. Phys. Soc., 2013, 62, 713-717.
55. A novel diffuser sheet comprising nanosized birefringent fibers embedded within an isotropic polymer matrix
Taehyung Kim, Sunhwan Kim, Dae Young Lim, Suk-Won Choi*, Opt. Comm., 2013, 295, 125-128.
54. Plastic Liquid Crystal Display with Polarizers Integrated Inorganic Conducting and Alignment Layers
P. K. Song, S.-W. Choi, S. S. Kim, S. C. Ko, Mol. Cryst. Liq. Cryst., 2013, 583, 1, 52-59.
2012
53. Poly-crystallinity of indium-tin-oxide films improved by using simultaneous ion beam and heat treatment of the plastic substrate
P.-K. Song, T. Kim, S.-W. Choi, J. S. Gwag, J. Kor. Phys. Soc., 2012, 61, 575-578.
52. Conductivity of ITO film amplified by multi-step ion beam-treatment on PET layers at room temperature
Phil Kook Son, Suk-Won Choi, Sung Soo Kim, and Jin Seog Gwag*, Sur. Interface Anal., 2012, 44, 1606-1610.
51. Highly circularly polarized white light using a combination of white polymer light-emitting diode and wideband cholesteric liquid crystal reflector
Hyun-Jung Lee, Bo Ram Lee, Suk-Won Choi*, Myoung Hoon Song, Opt. Express, 2012, 20, 24472-24481.
50. Photoisomerization-induced stable Liquid Crystalline Cubic Blue Phase
Min-Jun Gim, Sung-Taek Hur, Kyung-Won Park, Mongryong Lee, Suk-Won Choi*, Hideo Takezoe*, Chem. Comm., 2012, 48, 9968 - 9970.
49. Reflective dual-mode liquid crystal display possessing low power consumption and high contrast ratio under ambient light
Taehyung Kim, Joong Ha Lee, Tae-Hoon Yoon, Suk-Won Choi*, Opt. Express, 2012, 20, 15522-15529.
48. Optical configuration for symmetric and high contrast ratio in thee-dimensional polarization switching display
Taehyung Kim, Sunhwan Kim, Kyung-Won Park, Seung-Chul Lee, Moonsoo Park, Suk-Won Choi*, Opt. Express, 2012, 20,11389-11395.
47. Improvement of electro-optical properties on polymer-stabilized optically isotropic liquid crystals
S.-I. Yamamoto, T. Iwata, Y. Haseba, D.-U. Cho, S.-W. Choi, H. Higuchi, H. Kikuchi*, Liq. Cryst., 2012, 39, 487-491.
46. A Direct-lit Backlight Unit for 32 inch Liquid Crystal Display incorporating a Newly Designed Pyramid Sheet
Sung-Taek Hur, Suk-Won Choi*, Manhwan Lee, J. Kor. Phys. Soc., 2012, 60, 1196-1198.
45. Transition between widened BPs by light irradiation using photo-active bent-core liquid crystal with chiral dopant
Hyeon-Cheol Jeong, Khoa Van Le, Min-Jun Gim, Sung-Taek Hur, Suk-Won Choi, Fumito Araoka, Ken Ishikawa, Hideo Takezoe*, J. Mater. Chem., 2012, 22, 4627 - 4630.
44. Long memory retention time and high contrast ratio in a tristate liquid crystal display device
Taehyung Kim, Joong Ha Lee, Byung Wok Park, Ki-Han Kim, Tae-Hoon Yoon, Suk-Won Choi*, Applied Optics, 2012, 51, 2178-2182.
43. Indium-tin-oxide exhibiting high poly-crystallinity on oxygen plasma-treated polyethylene terephthalate surface
Phil Kook Son, Suk-Won Choi*, Sung Soo Kim, Nanoscale Research Letters, 2012, 7, 118.
42. Investigation of Ion Beam Treated SiOx Film Surfaces for Liquid Crystal Alignment
Phil Kook Son, Suk-Won Choi*, Surface and Interface Analysis, 2012, 44, 763-767.
2011
41. Thin-film field-effect transistors of copper phthalocyanine on a rubbed polyethersulfone
Hyun Gi Kim, Jung Soo Jang, Sung-Taek Hur, Suk-Won Choi*, Sung Soo Kim, Hideo Takezoe, Ken Ishikawa, Thin Solid Films, 2011, 519, 2011-2014.
40. A vertical-field-driven polymer-stabilized blue phase liquid crystal mode to obtain a higher transmittance and lower driving voltage
Yong-Hun Kim, Sung-Taek Hur, Chang-Sub Park, Kyung-Woo Park, Suk-Won Choi, Shin-Won Kang, and Hak-Rin Kim*, Optics Express, 2011,19, 17427.
39. Investigation for correlation between elastic constant and thermal stability of liquid crystalline blue phase I
Sung-Taek Hur, Min-Jun Gim, Hyun-Jong Yoo, Suk-Won Choi* and Hideo Takezoe, Soft Matter, 2011, 7, 8800-8803.
38. Study on the relation between rubbing and physical parameters of polyimide
Phil Kook Son, Suk-Won Choi*, Mol. Cryst. Liq. Cryst., 2011, 546, 26-33.
37. Temperature-dependent behaviours of blue phase I observed for a bent-core molecular system
Mongryong Lee, Sung-Taek Hur, Seung Ho Hong, Hyeo Jin Lee, Sung-Tae Shin, Suk-Won Choi*, Kigook Song, Mol. Cryst. Liq. Cryst., 2011, 550, 1-6.
36. Pretilt Direction of Liquid Crystal Molecules on an Ion-Beam-Treated SiOx Films
Phil Kook Son and Suk-Won Choi*, Mol. Cryst. Liq. Cryst., 2011, 550, 93-97.
35. An Edge-lit Backlight Unit for Small Portable Liquid Crystal Displays with a Newly Designed Single Pyramid Sheet
Sung-Taek Hur, Suk-Won Choi*, Manhwan Lee, J. Kor. Phys. Soc., 2011, 58, 392.
2010
34. Liquid Crystal Device with Nano-Patterned Indium-Zinc-Oxide Layer
Hyun Jin Kim, Jong Geol Lee, Hyun Gi Kim, Suk-Won Choi*, Sung Soo Kim, Jpn. J. Appl. Phys. 2010, 49, 024207.
33. Investigation for the relation between conditions of the ion beam process and the physical parameters of polyimide
Phil Kook Son, Suk-Won Choi *, J. Kor. Phys. Soc., 2010, 57, 1299.
32. Preferred Pretilt Direction of Liquid Crystal Molecules on Rubbed Polyimide Surfaces
Phil Kook Son, Suk-Won Choi*, J. Kor. Phys. Soc., 2010, 57, 207~209.
31. Liquid crystalline blue phase I observed for a bent-core molecule and its electro-optical performance
Mongryong Lee, Sung-Taek Hur, Hiroki Higuchi, Kigook Song, Suk-Won Choi*, Hirotsugu Kikuchi, J. Mater. Chem., 2010, 20, 5813-5816.
30. Fabrication of broadband cholesteric liquid crystal films by photopolymerization-induced phase separation
Mongryong Lee, Hyunseok Jang, Suk-Won Choi*, Kigook Song , Mol. Cryst. Liq. Cryst., 2010, 530, 13.
29. Fabrication of alignment layer coated indium-tin-oxide prepared by ultraviolet nano-imprinting lithography
Hyun Jin Kim, Hyun Gi Kim, Kiseo Kim, Sang-Hyon Park, Min-Jun Gim, Jin-Ju Jang, Suk-Won Choi* , Sung Soo Kim, Mol. Cryst. Liq. Cryst. 2010, 530, 7.
2009
28. Optically isotropic liquid crystal composite incorporating in-plane electric field geometry
Suk-Won Choi, Shin-Ichi Yamamoto, Takashi Iwata, Hirotsugu Kikuchi, Journal of Physics D: Applied Physics, 2009, 42, 112002.
27. Correlation between the electro-optical Kerr effect and physical parameters of nematogens
S.-W. Choi, S.-I. Yamamoto, Y. Haseba, H. Kikuchi, Optical Materials, 2009, 32, 190–193.
26. Spontaneous Chirality Induction and Enantiomer Separation in Liquid Crystals Composed of Achiral Rod-Shaped 4-Arylbenzoate Esters
H. S. Jeong, S.Tanaka, D.K. Yoon, S.-W. Choi, Y. H. Kim, S. Kawauchi, F. Araoka, H. Takezoe, H.-T. Jung, J. Am. Chem. Soc., 2009, 131, 15055–15060.
25. Polarization Analysis of Nanostructured Chiral LC Composites
D.-U. Cho, T. Iwata, S.-W. Choi, S.-I. Yamamoto, H. Higuchi, H. Kikuchi, Mol. Cryst. Liq. Cryst., 2009, 511, 292–297.
24. Photoinduced chirality in a photochromic stilbene-molecule-doped polymeric liquid crystal film
Suk-Won Choi and Hideo Takezoe, Physica E: Low-dimensional Systems and Nanostructures, 2009, 41, 1648-1650.
23. Direct Observation of Pitch Gradient in Cholesteric Liquid Crystal Film Using Fourier Transform Infrared Spectroscopic Imaging
Mongryong Lee, Hyunseok Jang, Suk-Won Choi*, Kigook Song, Bull. Korean Chem. Soc., 2009, 30, 1625.
22. Chiroptical properties in azobenzene molecule-doped side-chain polymeric films
Suk-Won Choi, Hideo Takezoe, Thin Solid Films, 2009, 517, 6142–6145.
21. Two-Step Polyimide Curing Technique for Flexible Plastic Liquid Crystal Devices
Kiseo Kim, Hyunjin Kim, Minjeong Kim, Hyun Gi Kim, Suk-Won Choi*, and Sung Soo Kim, Jpn. J. Appl. Phys. 2009, 48, 060203.
2008
20. Optically isotropic-nanostructured liquid crystal composite with high Kerr constant
S.-W. Choi, S. Yamamoto, Y. Haseba, , H. Higuchi, H. Kikuchi H, App. Phys. Lett., 2008, 92, 043119.
2007
19. Defect-free twisted-nematic cells with low pretilt using chiral polyimide surfaces
S.-W. Choi, Y. Takanishi, K. Ishikawa, H. Takezoe, Appl. Phys. Lett., 2007, 90, 033115.
18. Chirality induced by circularly polarized light in liquid crystalline twin dimers with azo linkages
Y. Hoshino, S.-W. Choi, T. Izumi, Y. Takanishi, K. Ishikawa, J. Watanabe, H. Takezoe, Mol. Cryst. Liq. Cryst., 2007, 465, 153.
17. Photoinduced chirality in azobenzene-containing polymer systems
S.-W. Choi, S. Kawauchi, N. Y. Ha, H. Takezoe, Phys. Chem. Chem. Phys., 2007, 9, 3671-3681.
16. Vibrational circular dichroism spectroscopic study on circularly polarized light-induced chiral domains in the B4 phase of a bent mesogen
S.-W. Choi, S. Kawauchi, S. Tanaka, J. Watanabe, H. Takezoe, Chem. Lett., 2007, 36, 1018-1019.
15. Why achiral rod-like compound with ester group amplifies chiral power in chiral mesophase
S. Kawauchi, S.-W. Choi, K. Fukuda, K. Kishikawa, J. Watanabe, H. Takezoe, Chem. Lett., 2007, 36, 750-751.
14. Intrinsic chiral domains enantioselectively segregated from twisted nematic cells of bent-core mesogens
S.-W. Choi, S. Kang, Y. Takanishi, K. Ishikawa, J. Watanabe, H. Takezoe, Chirality, 2007, 19, 250-254.
2006
13. Light-induced macroscopic chirality in thin films of achiral main-chain amorphous polyazourea system
S.-W. Choi, T. Fukuda, Y. Takanishi, K. Ishikawa, H. Takezoe, Jpn. J. Appl. Phys., 2006, 45, 447.
12. Electrically tunable binary liquid crystal grating device consisting of homeotropic monodomain and non-aligned multidomain geometry
Suk-Won Choi, Shin Matsumoto, Yoichi Takanishi, Ken Ishikawa, Isa Nishiyama, Joji Kawamura, Hirokazu Takada, Hideo Takezoe, Org. Elect., 2006, 7, 295
11. Amplification of twisting power in chiral mesophase by introducing achiral rod-like compound with ester group
S.-W. Choi, K. Fukuda, S. Nakahara, K. Kishikawa, Y. Takanishi, K. Ishikawa, J. Watanabe, H. Takezoe, Chem. Lett., 2006, 35, 896.
10. Phase grating using a ferroelectric liquid-crystal mixture with a photocurable liquid crystal
S. Matsumoto, M. Goto, S.-W. Choi, Y. Takanishi, K. Ishikawa, H. Takezoe, G. Kawamura, I. Nishiyama, H. Takada, J. Appl. Phys., 2006, 99, 113709.
9. Photoinduced circular anisotropy in a photochromic W-shaped-molecule-doped polymeric liquid crystal film
S.-W. Choi, N. Ha, K. Shiromo, N. V. S. Rao, M. K. Paul, T. Toyooka, S. Nishimura, J. W. Wu, B. Park, Y. Takanishi, K. Ishikawa, H. Takezoe, Phys. Rev. E, 2006, 73, 021702.
8. Circular-polarization-induced enantiomeric excess in liquid crystals of an achiral, bent-shaped mesogen
S.-W. Choi, T. Izumi, Y. Hoshino, Y. Takanishi, K. Ishikawa, J. Watanabe, H. Takezoe, Angew. Chem. Int. Ed., 2006, 45, 1382.
7. Intrinsic chirality in a bent-core mesogen induced by extrinsic chiral structures
S.-W. Choi, S. Kang, Y. Takanishi, K. Ishikawa, J. Watanabe, H. Takezoe, Angew. Chem. Int. Ed., 2006, 45, 6503.
2004
6. Polarization-independent electrically tunable phase grating fabricated from ultraviolet-curable liquid crystals
A. K. Ghosh, S.-W. Choi, Y. Takanishi, B. Park, K. Ishikawa, Y. Ono, J. Kawamura, H. Takezoe, 2004, J. Appl. Phys., 2004, 96, 5909.
1998
5. Second-Harmonic Generation in Achiral Bent-Shaped Liquid Crystals
S.-W. Choi, Y. Kinoshita, B. Park, H. Takezoe, T. Niori, J. Watanabe, Jpn. J. Appl. Phys., 1998, 37, 3408
4. Antiferroelectric Smectic Liquid Crystal Formed by Achiral Twin DImer with Two Mesogenic Groups Linked by Alkylene Spacer
J. Watanabe, T. Niori, S.-W. Choi, Y. Takanishi, H. Takezoe, Jpn. J. Appl. Phys., 1998, 37, L401
1997
3. Origin of Helix in Achiral Banana-Shaped Molecular Systems
T. Sekine, T. Niori, M. Sone, J. Watanabe, S.-W. Choi, Y. Takanishi, H. Takezoe, Jpn. J. Appl. Phys., 1997, 36, 6455.
2. Enhancement of Second-Harmonic Generation by Helicoidal Distributed Feedback Action in a Ferroelectric Smectic C* Liquid Crystal Using Two Counter-Propagating Fundamental Waves
J. G. Yoo, S.-W. Choi, H. Hoshi, K. Ishikawa, H. Takezoe, M. Schadt, Jpn, J. Appl. Phys., 1997, 36, L1168.
1. Spontaneous helix formation in smectic liquid crystals comprising achiral molecules
T. Sekine, T. Niori, J. Watanabe, T. Furukawa, S. W. Choi, H. Takezoe, J. Mater. Chem., 1997, 7, 1307.
FAQ
본 연구실에서 추구하는 인재상은?
본 연구실 소속 연구원이 누릴 수 있는 혜택은?
2) 대학 중점연구소 사업 참여
2) 일본 이화학연구소 (RIKEN) 등과의 국내외 선도연구기관과의 공동연구
3) 국내외학회 및 장기 연구 파견
4) 대학원입학 시, 입학금 및 등록금 지원
Contact
- Department of Advanced Materials Engineering for Information and Electronics, Kyung Hee University, 1732 Deogyeong-daero, Giheung, Yongin,
- Gyeonggi 17104, Republic of Korea