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Liquid crystal alignment effects for the photo-aligned VA-LCD on the photo-polymer
Hwang, Jeoung-Yeon,Seo, Dae-Shik,Hahn, Eun-Joo,Kim, Jae-Hyung The Korean Institute of Electrical and Electronic 2000 Transactions on Electrical and Electronic Material Vol.1 No.3
In this study the new photo-alignment material copoly(PM4Ch-ChMa)(copoly (poly (4-methancryloyloxy)chalcone-cholesteryl methacry late)) was synthesized, Also, the liquid crystal (LC) aligning capabilities and the electro-optical(EO) characteristics for the photo-aligned vertical-aligned(VA)-LC display(LCD) were studied. The monodomain alignment of the NLC for the photo-aligned VA-LCD by linearly polarized UB exposure on the Photo-dimerized copoly(PM4Ch-ChMA) surface was observed,. Excellent Voltage-transmittance characteristics for the VA-LCD photo-aligned by polarized UV exposure on the copoly (PM4Ch-ChMA) surfaces for 1 min was achieved. The response time of the VA-LCD photo-aligned by polarized UV exposure on the copoly (PM4Ch-ChMA) surfaces for 1 min was 39.3 ms, We suggest that the photo-dimerized chacone group increased with increasing UV exposure time, which then contributes to a low response time of the photo-aligned VA-LCD on the copoly (PM4Ch-ChMA) surfaces.
Effect of Liquid Crystal Alignment for Photo-Aligned VA-LCD on the Photo-Dimerized Polymer Surface
Hwang, Jeoung-Yeon,Seo, Dae-Shik Optical Society of Korea 2001 Current Optics and Photonics Vol.5 No.1
A photopolymer, copoly (M4Ch-ChMA), copoly ((4-methacryloyloxy) chalcone-cholesteryl methacrylate), was synthesized in this study. The electro-optical (EO) characteristics for the photo-aligned vertical-alignment (VA)-liquid crystal display (LCD) were investigated. Excellent voltage-transmittance curves for the VA-LCD photo-aligned by polarized UV exposure on the copoly (M4Ch-ChMA) surface were observed. The response time for the photo-aligned VA-LCD decrease with increasing UV exposure time. consequently, the photo-dimerized chalcone moiety increased with increasing UV exposure time, which then contributed to a low response time for the VA-LCD photo-aligned.
Liquid crystal alignment on inkjet printed and air-buffed polyimide with nano-grove surface
Hwang, Jeoung-Yeon,Chien, Liang-Chy Institute of Physics [etc.] 2009 Journal of physics. D, applied physics Vol.42 No.5
<P>We have found that liquid crystal (LC) can be aligned on an inkjet printed and air-buffed polyimide (PI) surface. Surface anisotropy is introduced by inkjet printing and air blowing from a PI ink cartridge and an empty cartridge of an inkjet printer, respectively. LC molecules align on the PI surfaces with the nano-scale grooves, which are validated with atomic force microscope images. The pretilt angles of the LCs could be varied from 0° to 90°, by controlling the composition of a mixture of homogeneous and homeotropic PIs.</P>
Hwang, Jeoung-Yeon,Seo, Dae-Shik,Suh, Dong-Hack The Korean Institute of Electrical Engineers 2001 KIEE International Transactions on Electrophysics Vol.11C No.4
In this research, we synthesized various photo-crosslinkable polyimide based polymers. The control of pretilt angles for a nematic liquid crystal (NLC) using the photodimerization method on the photopolymers was studied. A good thermal stability of the photopolymers was measured by thermogravimetric analysis (TGA) measurement until 450C. High pretilt angles of the NLC were otained by polarized UV exposure on the photopolymers containing biphenyl (BP), decyl (de), and cholesteryl (chal) groups, respectively. However, low pretilt angles of the NLC were measured by polarized UV exposure on the photopolymers containing fluorine and chalcone groups. The high NLC pretilt angles generated are attributable to the biphenyl and alkyl moieties, and the photodimerized chalocone group of the photopolymers. Additionally, good voltage-transmittance and response time characteristics were observed by UV exposure on the photopolymers.