Broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal via a reactive surface coating layer

Jongyoon Kim; Hyungmin Kim; Seongil Kim; Suseok Choi; Wonbong Jang; Jinwuk Kim; Ji Hoon Lee

doi:10.1364/AO.56.005731

Broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal via a reactive surface coating layer

Jongyoon Kim
, Hyungmin Kim
, Seongil Kim
, Suseok Choi
, Wonbong Jang
, Jinwuk Kim
, Ji Hoon Lee^*

^*Corresponding author for this work

Division of Electronic Engineering

Research output: Contribution to journal › Journal article › peer-review

27 Scopus citations

Abstract

We report a method of broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal (PSCLC). The top substrate was consecutively coated with a polyimide (PI) and a reactive mesogen (RM) layer, while the bottom substrate was coated with only PI. We exposed the top substrate with the RM coating to UV light. The reflection bandwidth of the PSCLC samples where the top substrate was over-coated with RM was significantly broader than the samples where both substrates were coated with PI. In addition to the effect of the UV intensity gradient, the RM-coated top substrate has a chemical affinity to bulk RM, promoting formation of the pitch gradient and broadening the reflection bandwidth in the sample.

Original language	English
Pages (from-to)	5731-5735
Number of pages	5
Journal	Applied Optics
Volume	56
Issue number	20
DOIs	https://doi.org/10.1364/AO.56.005731
State	Published - 2017.07.10

Quacquarelli Symonds(QS) Subject Topics

Engineering - Electrical & Electronic
Engineering - Petroleum
Physics & Astronomy

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@article{86569435f3124faa9601a7315f99eeba,

title = "Broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal via a reactive surface coating layer",

abstract = "We report a method of broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal (PSCLC). The top substrate was consecutively coated with a polyimide (PI) and a reactive mesogen (RM) layer, while the bottom substrate was coated with only PI. We exposed the top substrate with the RM coating to UV light. The reflection bandwidth of the PSCLC samples where the top substrate was over-coated with RM was significantly broader than the samples where both substrates were coated with PI. In addition to the effect of the UV intensity gradient, the RM-coated top substrate has a chemical affinity to bulk RM, promoting formation of the pitch gradient and broadening the reflection bandwidth in the sample.",

author = "Jongyoon Kim and Hyungmin Kim and Seongil Kim and Suseok Choi and Wonbong Jang and Jinwuk Kim and Lee, \{Ji Hoon\}",

note = "Publisher Copyright: {\textcopyright} 2017 Optical Society of America.",

year = "2017",

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doi = "10.1364/AO.56.005731",

language = "English",

volume = "56",

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T1 - Broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal via a reactive surface coating layer

AU - Kim, Jongyoon

AU - Kim, Hyungmin

AU - Kim, Seongil

AU - Choi, Suseok

AU - Jang, Wonbong

AU - Kim, Jinwuk

AU - Lee, Ji Hoon

PY - 2017/7/10

Y1 - 2017/7/10

N2 - We report a method of broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal (PSCLC). The top substrate was consecutively coated with a polyimide (PI) and a reactive mesogen (RM) layer, while the bottom substrate was coated with only PI. We exposed the top substrate with the RM coating to UV light. The reflection bandwidth of the PSCLC samples where the top substrate was over-coated with RM was significantly broader than the samples where both substrates were coated with PI. In addition to the effect of the UV intensity gradient, the RM-coated top substrate has a chemical affinity to bulk RM, promoting formation of the pitch gradient and broadening the reflection bandwidth in the sample.

AB - We report a method of broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal (PSCLC). The top substrate was consecutively coated with a polyimide (PI) and a reactive mesogen (RM) layer, while the bottom substrate was coated with only PI. We exposed the top substrate with the RM coating to UV light. The reflection bandwidth of the PSCLC samples where the top substrate was over-coated with RM was significantly broader than the samples where both substrates were coated with PI. In addition to the effect of the UV intensity gradient, the RM-coated top substrate has a chemical affinity to bulk RM, promoting formation of the pitch gradient and broadening the reflection bandwidth in the sample.

UR - https://www.scopus.com/pages/publications/85023158571

U2 - 10.1364/AO.56.005731

DO - 10.1364/AO.56.005731

M3 - Journal article

C2 - 29047717

AN - SCOPUS:85023158571

SN - 1559-128X

VL - 56

SP - 5731

EP - 5735

JO - Applied Optics

JF - Applied Optics

IS - 20

ER -

Broadening the reflection bandwidth of polymer-stabilized cholesteric liquid crystal via a reactive surface coating layer

Abstract

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