Evaluation of phase retardation of curved thin polycarbonate substrates for wide-viewing angle flexible liquid crystal displays

Shuichi Honda; Takahiro Ishinabe; Yosei Shibata; Hideo Fujikake

doi:10.1587/transele.E100.C.992

Evaluation of phase retardation of curved thin polycarbonate substrates for wide-viewing angle flexible liquid crystal displays

Shuichi Honda, Takahiro Ishinabe, Yosei Shibata, Hideo Fujikake

ENG - Electronic Engineering

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

We investigated the effects of a bending stress on the change in phase retardation of curved polycarbonate substrates and optical characteristics of flexible liquid crystal displays (LCDs). We clarified that the change in phase retardation was extremely small even for the substrates with a small radius of curvature, because bending stresses occurred in the inner and upper surfaces are canceled each other out. We compensated for the phase retardation of polycarbonate substrates by a positive C-plate and successfully suppressed light leakage in both non-curved and curved states. These results indicate the feasibility of high-quality flexible LCDs using polycarbonate substrates even in curved states.

Original language	English
Pages (from-to)	992-997
Number of pages	6
Journal	IEICE Transactions on Electronics
Volume	E100C
Issue number	11
DOIs	https://doi.org/10.1587/transele.E100.C.992
Publication status	Published - 2017 Nov

Keywords

Bending stress
Flexible display
Liquid crystal display
Optical compensation
Polycarbonate substrate

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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10.1587/transele.E100.C.992

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abstract = "We investigated the effects of a bending stress on the change in phase retardation of curved polycarbonate substrates and optical characteristics of flexible liquid crystal displays (LCDs). We clarified that the change in phase retardation was extremely small even for the substrates with a small radius of curvature, because bending stresses occurred in the inner and upper surfaces are canceled each other out. We compensated for the phase retardation of polycarbonate substrates by a positive C-plate and successfully suppressed light leakage in both non-curved and curved states. These results indicate the feasibility of high-quality flexible LCDs using polycarbonate substrates even in curved states.",

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author = "Shuichi Honda and Takahiro Ishinabe and Yosei Shibata and Hideo Fujikake",

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AU - Honda, Shuichi

AU - Ishinabe, Takahiro

AU - Shibata, Yosei

AU - Fujikake, Hideo

PY - 2017/11

Y1 - 2017/11

N2 - We investigated the effects of a bending stress on the change in phase retardation of curved polycarbonate substrates and optical characteristics of flexible liquid crystal displays (LCDs). We clarified that the change in phase retardation was extremely small even for the substrates with a small radius of curvature, because bending stresses occurred in the inner and upper surfaces are canceled each other out. We compensated for the phase retardation of polycarbonate substrates by a positive C-plate and successfully suppressed light leakage in both non-curved and curved states. These results indicate the feasibility of high-quality flexible LCDs using polycarbonate substrates even in curved states.

AB - We investigated the effects of a bending stress on the change in phase retardation of curved polycarbonate substrates and optical characteristics of flexible liquid crystal displays (LCDs). We clarified that the change in phase retardation was extremely small even for the substrates with a small radius of curvature, because bending stresses occurred in the inner and upper surfaces are canceled each other out. We compensated for the phase retardation of polycarbonate substrates by a positive C-plate and successfully suppressed light leakage in both non-curved and curved states. These results indicate the feasibility of high-quality flexible LCDs using polycarbonate substrates even in curved states.

KW - Bending stress

KW - Flexible display

KW - Liquid crystal display

KW - Optical compensation

KW - Polycarbonate substrate

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Evaluation of phase retardation of curved thin polycarbonate substrates for wide-viewing angle flexible liquid crystal displays

Abstract

Keywords

ASJC Scopus subject areas

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