A display including a backlight unit including a circuit board, light emitting devices arranged on the circuit board, and a combined optical sheet disposed on the light emitting devices, and a display panel disposed on the backlight unit, in which each light emitting device includes a light emitting diode chip, a light transmitting resin covering an upper surface and a side surface of the light emitting diode chip, and a light blocking member covering an upper surface of the light transmitting resin, and the light emitting devices are mounted on the circuit board to be driven independently driven.

The present invention provides an optical film structure, which comprises a base layer, a plurality of optical layers, and a prism layer. A first optical structure is disposed below the base layer such that the first optical structure can concentrate and alter an incident light source. By using the structure of the plurality of optical layers, the ineffective polarized light of the light source can be converted into effective polarized light. Furthermore, the first optical structure adjusts a focal point of the incident light source and thus increasing the luminous flux and brightness of the light source.

A light-emitting device is applicable to a backlight module. The light-emitting device includes a substrate, a light-emitting diode (LED) and an encapsulation body. The encapsulation body is on the substrate and covers the LED. The encapsulation body includes a base and a lens. The base has a base surface. The lens has a lens surface. The lens surface conforms to a cubic

Bezier curve. The cubic Bezier curve has a start point and an end point. The start point of the cubic Bezier curve is at the base surface. The end point of the cubic Bezier curve corresponds to the center of the LED. The lens surface is provided with a concave portion at the end point. The lens increases the light-emitting angle of the LED, so that the spacing between light-emitting devices can be increased, thereby reducing the number of light-emitting devices to be used and the costs.

A backlight module and a display device are provided, and the backlight module includes: a substrate; a plurality of light-emitting elements arranged in an array on the substrate; and a reflective supporting structure on the substrate, wherein the reflective supporting structure has a plurality of openings, the plurality of openings correspond to the plurality of light-emitting elements one-to-one, and each of the plurality of light-emitting elements is accommodated in one of the plurality of openings, wherein the reflective supporting structure is configured to reflect light from the plurality of light-emitting elements, so that an angle between an exit direction of the reflected light and a first direction perpendicular to the substrate is less than a predetermined angle.

A planar light source device includes a light diffusing portion and a light reflecting portion in this order. The light diffusing portion has light transmissivity and light diffusivity. Reflectance of the light reflecting portion with respect to light of a particular wavelength entering at an angle of incidence of 0° is 80% or higher. The reflectance of the light reflecting portion with respect to at least part of light of the particular wavelength entering at an angle of incidence of which an absolute value is greater than 45° is less than 50%.

A display device is provided. The display device according to the present disclosure includes: a display panel; a frame positioned behind the display panel; a substrate having an elongated shape and coupled to the frame; an optical assembly mounted on the substrate and configured to provide light to the display panel; and a plurality of holders coupling the substrate to the frame, wherein the plurality of holders includes: a first holder disposed adjacent to a first elongated side of the substrate; and a second holder disposed adjacent to a second elongated side of the substrate opposite the first elongated side and positioned opposite to the first holder, wherein the first holder and the second holder are configured to secure the substrate.

Disclosed are a backlight module and a display device. The backlight module includes a backplane, a light guide plate and a light source. The backplane includes a first surface and a second surface opposite to the first surface. The light guide plate includes a light output portion provided on the first surface and a bending portion provided with a light input end on the second surface, and an end of the light output portion facing the second surface of the backplane is bent and extended to form the bending portion. The light source is provided on the second surface and corresponds to a light input end face of the light input end.

Embodiments of the present disclosure provides a backlight module and a display device. The backlight module includes a backboard and a reflecting sheet located on the backboard; the reflecting sheet includes a body and a plurality of hollow areas, wherein the body surrounding at least one of the hollow areas is provided with one or more openings.

Provided are a display panel and a method for manufacturing the display panel, and a display device and a method for manufacturing the display device. Various embodiments relate to the field of display technology and can reduce the thickness of the display panel. The display panel includes a base, a display driving circuit provided at a first side of the base, and a backlight driving circuit provided at a second side of the base. The display driving circuit includes a first thin film transistor. The backlight driving circuit includes a second thin film transistor, and is configured to drive the backlight source to emit light.

A curing system for an additive fabrication system includes a light source, a liquid crystal cell, and a first polarizer. The light source is configured to emit light at a wavelength suitable for curing a material. The liquid crystal cell is configured to receive the light from the light source. The first polarizer comprises a polyvinyl alcohol (PVA) matrix and organic dyes impregnated into the PVA matrix.