We fabricated a 6.05-inch reflective liquid crystal display (LCD) using a CAAC-OS for a driving transistor. We achieved low frequency driving at 1/60 fps or lower and flicker reduction. With our LCD, eye strain can be reduced more than with an electrophoretic display.
By combining negative liquid crystal with a top-gate field-effect transistor using a c-axis-aligned crystalline oxide semiconductor, we fabricated a prototype of a fringe field switching liquid-crystal display panel with a high effective transmittance and a resolution of over 1000 ppi.
We have developed a polymer‐stabilized blue‐phase LCD in which the diffraction wavelength of blue‐phase liquid crystal is in the ultraviolet region and which is driven at a low voltage of V100 = 27 V. Prototypes of 3.4‐in polymer‐stabilized blue‐phase LCDs were made, which include a highly reliable crystalline oxide semiconductor. We succeeded in fabricating not a test cell but a display having a contrast ratio higher than 1000 : 1 for the first time in the world.
We achieved low-voltage driving of a blue-phase liquid crystal display by employing liquid crystal with high dielectric anisotropy and a chiral material with high helical twisting power. A prototype of a 3.4-inch polymer-stabilized blue-phase display was made, which includes a highly reliable crystalline oxide semiconductor and operates favorably.
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