73.4: Reflective LCD with High Reflectance and Color Reproductivity for Reduced Eye Strain

Kubota, Daisuke; Niikura, Yasuhiro; Hatsumi, Ryo; Ishitani, Tetsuji; Hirakata, Yoichi; Yamazaki, Shunpei; Nakamura, Akihiro; Chubachi, Yuka; Katayama, Masahiro

doi:10.1002/sdtp.10414

Cited by 7 publications

(3 citation statements)

References 7 publications

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“…The development of bright reflective displays with low power consumption and motion image capabilities has been anticipated for next-generation display applications, such as e-book readers and large digital signs [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17] . Realization of a polarizer without wavelength dependency in both the parallel and crossed states, known as an "achromatic polarizer", is expected to lead to the development of reflective displays with high image quality, similar to that of printed paper.…”

Section: Introductionmentioning

confidence: 99%

[Papers] Achromatic Dye-type Polarizer for Paper White Reflective Liquid Crystal Displays

Mochizuki

Ishinabe

Fujiwara³

et al. 2018

MTA

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We have developed the achromatic polarizer using novel dichroic pigments. We established a method to control the light absorption, dichroic ratio, and alignment direction of dichroic pigments and successfully achieved high transmittance uniformity in visible wavelength range in both parallel and crossed states. This polarizer results in development of the low power monochrome-type reflective liquid crystal display with high reflectivity, paper white and motion picture capability.

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Section: Introductionmentioning

confidence: 99%

[Papers] Achromatic Dye-type Polarizer for Paper White Reflective Liquid Crystal Displays

Mochizuki

Ishinabe

Fujiwara³

et al. 2018

MTA

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“…In the pixel, a reflective LCD and a bottom-emission OLED are individually fabricated. To increase the visibility of the display with low power consumption, display is performed by the reflective LCD under outside light [9,10] and by the OLED in dark environments. The transfer technology and through electrode technique are employed for these two different display devices.…”

Section: Introductionmentioning

confidence: 99%

74-1: Application of Transfer Technology to Manufacturing of Transmissive OLED and Reflective LC Hybrid (TR-Hybrid) Display

Ohide¹,

Yasumoto²,

Nakada³

et al. 2016

SID Symposium Digest of Technical Papers

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“…In particular, we used a c-axis aligned crystalline oxide semiconductor (CAAC-OS) to fabricate highly reliable field-effect transistors (FETs) [10][11][12][13][14]. Employing bottom-gate top-contact (BGTC) CAAC-OS FETs, we fabricated 513-ppi transmissive liquid-crystal display (LCD) panels and 434-ppi reflective LCD panels [15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

37-2: 1058-ppi 4K LC Display Using a Top-Gate Self-Aligned CAAC-OS FET

Yoshitomi

Niikura

et al. 2016

SID Symposium Digest of Technical Papers

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73.4: Reflective LCD with High Reflectance and Color Reproductivity for Reduced Eye Strain

Abstract: We fabricated prototypes of a 434-ppi 5.9-in

Cited by 7 publications

References 7 publications

[Papers] Achromatic Dye-type Polarizer for Paper White Reflective Liquid Crystal Displays

[Papers] Achromatic Dye-type Polarizer for Paper White Reflective Liquid Crystal Displays

74-1: Application of Transfer Technology to Manufacturing of Transmissive OLED and Reflective LC Hybrid (TR-Hybrid) Display

37-2: 1058-ppi 4K LC Display Using a Top-Gate Self-Aligned CAAC-OS FET

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