Light enters the display, goes through a polarizer, and is twisted by a liquid crystal material. The first successful LCDs used two types of liquid crystals – chiral and nematic. By combining ...

This change in orientation affects the light's ability to pass through the liquid crystal layer, enabling the display to produce images. An LCD consists of several layers, including two polarizing ...

By using optically active liquid crystals as reaction sites, researchers at University of Tsukuba have successfully achieved ...

More than $2 billion has been spent over the past 15 years in trying to develop the technology and infrastructure behind liquid-crystal-on-silicon (LCoS) displays. After a fitful start ...

By using optically active liquid crystals as reaction sites, researchers at University of Tsukuba have successfully achieved ...

While lower than commercial display technologies, this performance exceeds most existing liquid crystal/metasurface-based nanoprinting devices and reflects advancements in metasurface technology. The ...

Chiral molecules come in two mirror-image ... long-lasting multicolored image was projected on a liquid crystal display using ...

LCD (Liquid Crystal Display) IPS-LCD (In-Plane Switching Liquid Crystal Display) OLED (Organic Light-Emitting Diode) AMOLED (Active-Matrix Organic Light-Emitting Diode) The screen, when combined ...

Polyisocyanides are polymers distinguished by their helical structures, where the helix's winding direction (right- or left-handed) can be controlled through catalysts designed for synthesizing ...