Novel in-plane switching liquid crystal display with an extremely high transmittance using a well-designed bottlebrush as a zero-azimuth anchoring material

Osamu Sato; Harumi Okuno; Isao Adachi; Junji Watanabe; Masatoshi Tokita; Keita Sakakibara; Yuji Kinose; Atsushi Goto; Yoshinobu Tsujii

doi:10.7567/1347-4065/ab1e70

Novel in-plane switching liquid crystal display with an extremely high transmittance using a well-designed bottlebrush as a zero-azimuth anchoring material

Osamu Sato, Harumi Okuno, Isao Adachi, Junji Watanabe, Masatoshi Tokita, Keita Sakakibara, Yuji Kinose, Atsushi Goto, Yoshinobu Tsujii

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

21 Citations (Scopus)

Abstract

In this study, a one-side zero-azimuth anchoring in-plane switching (OZ-IPS) liquid crystal display (LCD) employing poly(n-hexyl methacrylate) (PHMA) bottlebrush polymers as an application-type zero-azimuth anchoring material was successfully developed. The twist anchoring coefficient A ₂ measured for the nematic liquid crystal (NLC) on the PHMA bottlebrush at 25 °C was comparable to that of the same NLC on high-density PHMA brushes. Optimizing the optical design increased the transmission efficiency (TE) of the OZ-IPS cell with the negative NLC to 95%, which was significantly higher than that of conventional IPS cells. Using optical simulation, the OZ-IPS LCDs with a negative NLC clearly exhibited the highest TE (≃107% of TN LCDs) for LCDs developed thus far. Moreover, the higher transmittance of the OZ-IPS LCDs was also confirmed for the practical TFT LCD, which exhibited a maximum luminance that was 30% higher than conventional IPS TFT LCDs.

Original language	English
Article number	066503
Journal	Japanese Journal of Applied Physics
Volume	58
Issue number	6
DOIs	https://doi.org/10.7567/1347-4065/ab1e70
Publication status	Published - 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019 The Japan Society of Applied Physics.

ASJC Scopus Subject Areas

General Engineering
General Physics and Astronomy

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10.7567/1347-4065/ab1e70

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Sato, O., Okuno, H., Adachi, I., Watanabe, J., Tokita, M., Sakakibara, K., Kinose, Y., Goto, A., & Tsujii, Y. (2019). Novel in-plane switching liquid crystal display with an extremely high transmittance using a well-designed bottlebrush as a zero-azimuth anchoring material. Japanese Journal of Applied Physics, 58(6), Article 066503. https://doi.org/10.7567/1347-4065/ab1e70

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abstract = "In this study, a one-side zero-azimuth anchoring in-plane switching (OZ-IPS) liquid crystal display (LCD) employing poly(n-hexyl methacrylate) (PHMA) bottlebrush polymers as an application-type zero-azimuth anchoring material was successfully developed. The twist anchoring coefficient A 2 measured for the nematic liquid crystal (NLC) on the PHMA bottlebrush at 25 °C was comparable to that of the same NLC on high-density PHMA brushes. Optimizing the optical design increased the transmission efficiency (TE) of the OZ-IPS cell with the negative NLC to 95%, which was significantly higher than that of conventional IPS cells. Using optical simulation, the OZ-IPS LCDs with a negative NLC clearly exhibited the highest TE (≃107% of TN LCDs) for LCDs developed thus far. Moreover, the higher transmittance of the OZ-IPS LCDs was also confirmed for the practical TFT LCD, which exhibited a maximum luminance that was 30% higher than conventional IPS TFT LCDs.",

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AU - Sato, Osamu

AU - Okuno, Harumi

AU - Adachi, Isao

AU - Watanabe, Junji

AU - Tokita, Masatoshi

AU - Sakakibara, Keita

AU - Kinose, Yuji

AU - Goto, Atsushi

AU - Tsujii, Yoshinobu

PY - 2019

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AB - In this study, a one-side zero-azimuth anchoring in-plane switching (OZ-IPS) liquid crystal display (LCD) employing poly(n-hexyl methacrylate) (PHMA) bottlebrush polymers as an application-type zero-azimuth anchoring material was successfully developed. The twist anchoring coefficient A 2 measured for the nematic liquid crystal (NLC) on the PHMA bottlebrush at 25 °C was comparable to that of the same NLC on high-density PHMA brushes. Optimizing the optical design increased the transmission efficiency (TE) of the OZ-IPS cell with the negative NLC to 95%, which was significantly higher than that of conventional IPS cells. Using optical simulation, the OZ-IPS LCDs with a negative NLC clearly exhibited the highest TE (≃107% of TN LCDs) for LCDs developed thus far. Moreover, the higher transmittance of the OZ-IPS LCDs was also confirmed for the practical TFT LCD, which exhibited a maximum luminance that was 30% higher than conventional IPS TFT LCDs.

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Novel in-plane switching liquid crystal display with an extremely high transmittance using a well-designed bottlebrush as a zero-azimuth anchoring material

Abstract

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