Provided is a light emitting apparatus including a substrate including a plurality of light emitting devices, wherein the substrate further includes a plurality of first members configured to diffuse light emitted from at least one of the light emitting devices, and a second member that is positioned between the first members, wherein the second member includes a light absorbing layer.

The present invention provides an organic EL image display device including a reflecting layer, an organic electroluminescent layer group, a polarization separation layer, and a circularly polarizing plate in this order, in which the polarization separation layer includes polarization separation sites arranged in a matrix form corresponding to the organic electroluminescent layer group, the polarization separation site reflects light of one polarization state and transmits light of the other polarization state in light emitted from the corresponding organic electroluminescent layer, the polarization separation layer is divided by a visible light transmission region to form the polarization separation sites, and a wavelength range of the reflection is wider than a wavelength range of the light emission. The organic EL image display device according to the present invention has high brightness at the time of both front observation and oblique observation and little image blurring.

The disclosure provides a color film substrate for a WOLED display, comprising: a first substrate; a plurality of color photoresist layers are provided on the first substrate, and the color photoresist layers are set at intervals between each other; a first pixel definition layer is provided within an interval; a reflective film layer is provided on the first pixel definition layer. The disclosure further provided the WOLED display. the reflective film layer is formed at the junction of the color film substrate and the driving light-emitting substrate, so as to prevent an emitting light of each OLED functional layer from leaking to each adjacent OLED functional layer, and avoid the phenomenon of the light leakage and the color mixing between adjacent OLED functional layers.

A display device includes: a display panel divided into a display area and a peripheral area, the peripheral area being adjacent to the display area; a cover member on the display panel, the cover member being divided into a transmission area overlapping with the display area and a bezel area overlapping with the peripheral area; and a light guide member between the cover member and the display panel, the light guide member including a base member including at least one recessed portion overlapping with the peripheral area, and a filling portion at the recessed portion.

A head-mounted display device includes a transparent display for projecting light toward an eye so that images rendered based on the augmented reality contents overlap with real images. The device also includes a mirror configured to reflect infrared light and transmit a portion of visible light corresponding to the real images, and an infrared light source configured to emit infrared light, which is reflected by the mirror toward the transparent display and transmitted through the transparent display toward the eye. The device further includes a sensor configured to detect infrared light reflected from the eye for determining a gaze direction of the eye. The infrared light reflected from the eye is transmitted through the transparent display and reflected by the mirror toward the sensor. In some embodiments, the device includes a lens for transmitting the projected light, the infrared light, and the visible light.

The present application discloses a display panel and a manufacturing method thereof. The display panel includes a substrate, a pixel definition layer and a light-emitting layer. The pixel definition layer is disposed on the substrate. The pixel definition layer is provided with a first through hole, the first through hole penetrates through the pixel definition layer, the light-emitting layer is disposed in the first through hole, and an isolation layer is disposed between the light emitting layer and the pixel definition layer.

Provided is a display device capable of suppressing reflection of light of a visible light region in a peripheral region. The display device includes a reflecting portion, an insulating layer, an electrode, and a filter of a predetermined color that are provided in this order in a region around a display region. The reflecting portion and the electrode constitute a resonator structure, which weakens light of the predetermined color.

An optical film and a display device are provided. The optical film includes: multiple optical structures, wherein one side of each optical structure away from a display surface is provided with multiple arced surfaces for reflecting at least a portion of environment light, and each optical structure has a first refractive index; and a filling part being filled between the optical structures and having a second refractive index greater than the first refractive index. Adjusting curvatures of the arced surfaces can implement the adjustment of the angle of reflection to the environment light.

To display a high-quality video regardless of a usage environment. To provide a display device which is lightweight and less likely to be broken. To reduce power consumption of the display device. The display device includes a first display element, a first transistor connected to the first display element, a second display element, and a second transistor connected to the second display element. The first display element is a reflective display element. The first display element and the first transistor are bonded to the second display element and the second transistor with an adhesive layer. Light from the second display element is extracted to the display surface on the first display element side. The light is condensed or guided by a light-condensing means or a light-guiding means provided in a path of the light from the second display element to the display surface.

An optical apparatus includes first and second mirror devices disposed to oppose each other, each being capable of taking partially reflective state; and an image displaying device disposed between or on one outer side of the first and second mirror devices, and being capable of displaying an image.