P‐186: A Novel Liquid Crystal Material for Shortening the UV2 Process of Polymer‐stabilized Vertically Aligned Liquid Crystal Displays

The production of polymer‐stabilized vertically aligned (PSVA) displays requires two UV processes for liquid crystal (LC) alignments. UV1 is usually short for pre‐tilt angle formation, while UV2 takes approximately 90 minutes to consume the remaining reactive monomers (RMs). Therefore, shortening th...

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Veröffentlicht in:	SID International Symposium Digest of technical papers 2024-06, Vol.55 (1), p.2092-2095
Hauptverfasser:	Xiao, Jianfeng, Wang, Yanan, Zhao, Rentang, Li, Ji, Hsieh, Chung‐Ching, Liu, Xiao
Format:	Artikel
Sprache:	eng
Schlagworte:	fast‐reaction Liquid crystal displays liquid crystals Maintenance costs Optical properties Polymers PSVA reactive monomers UV2
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container_title	SID International Symposium Digest of technical papers
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creator	Xiao, Jianfeng Wang, Yanan Zhao, Rentang Li, Ji Hsieh, Chung‐Ching Liu, Xiao
description	The production of polymer‐stabilized vertically aligned (PSVA) displays requires two UV processes for liquid crystal (LC) alignments. UV1 is usually short for pre‐tilt angle formation, while UV2 takes approximately 90 minutes to consume the remaining reactive monomers (RMs). Therefore, shortening the UV2 process can significantly reduce the power consumption and maintenance costs of UV lamps during LCD fabrication. Herein, we report a novel LC material consisting of fast‐reaction RMs. With the addition of fast‐reaction RMs, the UV2 process can be dramatically decreased from 90 min to 20 min. Furthermore, the reduction of the UV2 process shows competitive optical properties, reliabilities and pre‐tilt angle stabilities compared with the reference. Overall, new fast‐reaction LC materials are beneficial to energy saving and the cost competitiveness of the company.
doi_str_mv	10.1002/sdtp.18016
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UV1 is usually short for pre‐tilt angle formation, while UV2 takes approximately 90 minutes to consume the remaining reactive monomers (RMs). Therefore, shortening the UV2 process can significantly reduce the power consumption and maintenance costs of UV lamps during LCD fabrication. Herein, we report a novel LC material consisting of fast‐reaction RMs. With the addition of fast‐reaction RMs, the UV2 process can be dramatically decreased from 90 min to 20 min. Furthermore, the reduction of the UV2 process shows competitive optical properties, reliabilities and pre‐tilt angle stabilities compared with the reference. 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title	P‐186: A Novel Liquid Crystal Material for Shortening the UV2 Process of Polymer‐stabilized Vertically Aligned Liquid Crystal Displays
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