A reflective liquid crystal panel including a first substrate and a second substrate disposed opposite to each other and a liquid crystal layer. A reflection layer is provided on the first substrate, and a polarizing plate is provided the second substrate. A unidirectional wavelength converting layer and a quantum dot thin film layer are sequentially laminated between the second substrate and the liquid crystal layer. The unidirectional wavelength conversion layer made of an up conversion material is used to convert the incident ambient light into a blue light or an ultraviolet light. The quantum dot thin film layer includes a plurality of light emitting areas which are arranged in array and can be excited to emit light with different colors. A display device including the reflective liquid crystal panel as mentioned above is also disclosed.

An optical film includes a prism part having a plurality of prism patterns obliquely arranged in rows on a multilayer-structured reflective polarizing part. The reflective polarizing part is configured to reflect light from a first polarization axis and transmit light through a second polarization axis perpendicular to the first polarization axis. The rows of the prism patterns are arranged at a predetermined angle of inclination relative to the second polarization axis to reduce a Moir phenomenon. The optical film may be adopted in a liquid crystal display device including a backlight unit to transmit light to a liquid crystal panel. A first polarizing plate is disposed between the optical film and the liquid crystal panel, and has a transmission axis that coincides with the second polarization axis of the reflective polarizing part to maximize light transmission from the backlight unit to the liquid crystal display.

Composite particles, compositions containing the composite particles, and articles containing the composite particles are provided. The composite particles contain a fluorescent core/shell nanoparticle and a stabilizing additive that includes a phosphine compound having at least three phosphorous-containing electron donor groups.

Ligand-capped scattering nanoparticles, curable ink compositions containing the ligand-capped scattering nanoparticles, and methods of forming films from the ink compositions are provided. Also provided are cured films formed by curing the ink compositions and photonic devices incorporating the films. The ligands bound to the inorganic scattering nanoparticles include a head group and a tail group. The head group includes a polyamine chain and binds the ligands to the nanoparticle surface. The tail group includes a polyalkylene oxide chain.

A laminate is capable of forming an orientation film formed by orienting a rod-like liquid crystal compound or a disk-like liquid crystal compound having a horizontal orientation ability or a vertical orientation ability with respect to a surface of the laminate, on the surface, by using an orientation restraining force of the surface, the laminate including: a cholesteric liquid crystal layer. An optical film sequentially includes: a support; a cholesteric liquid crystal layer; and an orientation film.

Disclosed herein is a display apparatus. The display apparatus includes a backlight unit configured to emit light, a display panel positioned in front of the backlight unit, and an optical film positioned in front of the display panel. The optical film includes a base layer positioned adjacent to the display panel, a first refractive layer positioned in front of the base layer and having a pattern including a first inclined portion totally reflecting some of light waves emitted from the backlight unit, and a second refractive layer positioned in front of the first refractive layer and having a lower refractive index than the first refractive layer.

A display device includes a backlight module, a liquid crystal display panel and an optical module. The liquid crystal display panel is disposed on the backlight module. The liquid crystal display panel includes an array substrate, an opposite substrate, a display medium layer, an upper polarizing pattern, and a lower polarizing pattern. The upper polarizing pattern is disposed on the opposite substrate. The lower polarizing pattern is disposed on the array substrate and has a first transmission axis. The optical module is disposed between the backlight module and the liquid crystal display panel. The optical module includes a dual brightness enhancement film. The dual brightness enhancement film has a second transmission axis. The polarization direction of the light after passing through the optical module is different from the polarization direction of the light after passing through the lower polarizing pattern.

The present invention provides a liquid crystal display panel in which a decrease in durability and reliability can be inhibited while excellent design ability is maintained. The present invention provides a liquid crystal display panel sequentially including: a first polarizing plate including a first stretched film and provided with a hole; a liquid crystal panel; and a second polarizing plate including a second stretched film and provided with a hole, wherein a machine direction (MD) of the first stretched film is perpendicular to a machine direction (MD) of the second stretched film, a length of the first polarizing plate in a direction perpendicular to the MD of the first stretched film is longer than a length of the second polarizing plate in a direction perpendicular to the MD of the second stretched film, and a thickness of the first stretched film is smaller than a thickness of the second stretched film.

Described is a quantum dot film article comprising a quantum dot of a cured thiol-epoxy matrix. The matrix formulations resist ingress from water and/or oxygen, while also providing acceptable color stability upon aging.

A viewing angle diffusion film and a display panel are disclosed. The viewing angle diffusion film includes a substrate and a refractive protrusion disposed on a surface of the substrate. The refractive protrusion includes a first side surface away from a center of the substrate, and the first side surface includes a first curved surface.