A comprehensive system and method construction of an organic lighting diode (OLED) display for regular outdoor use. In one embodiment, the system includes an OLED display that includes an OLED panel with a front side and a back side, a front cover glass with an optional controllable UV light blocking medium coupled to the front side of the OLED panel, a rear cover coupled to the OLED panel. The incorporation of a controllable UV light blocking medium—such as electrochromic (EC) glass, Suspended Particle Device Film (SPD), Polymer Dispersed Liquid Crystal (PDLC) or any other equivalent controllable tinting technology bonded to the front side of the OLED panel—allows the display to protect itself from excess light. The UV light blocking medium can be controlled programmatically, by implementing light sensors, timers or by manual control via a switch or similar device.

A display device includes a display panel having a first region, a second region, and a bending region which is between the first region and the second region and at which the display panel is bendable, an anti-reflection layer on the display panel and including a color filter, and a shock absorbing layer facing the display panel with the anti-reflection layer therebetween. The shock absorbing layer extends from the first region of the display panel and into the bending region thereof.

A display apparatus includes a first base layer including a first pixel area and a second pixel area spaced apart from each other, and a connection area connecting the first pixel area to the second pixel area, the first base layer including a first surface and a second surface opposite to each other, a first pixel disposed in the first pixel area, and a second pixel disposed in the second pixel area. The first pixel and the second pixel are arranged on the first surface of the first base layer, and the first base layer includes a plurality of first protrusions arranged on the second surface of the connection area.

A display panel and a display device are provided. The display panel includes a display region, a perimeter region, and a hole region. The display panel further comprises an inorganic insulating layer, an organic insulating layer, an organic light emitting layer and a film packaging layer stacked. The organic light emitting layer is disposed correspondingly to the display region. At least one ring groove is defined in the inorganic insulating layer and/or the organic insulating layer corresponding to the perimeter region. A portion of the film packaging layer corresponding to the ring groove is closely contacted to the inorganic insulating layer and/or the organic insulating layer.

An OLED panel and a method of manufacturing the same are disclosed. The OLED panel is provided to be disposed above a camera, and the OLED panel comprises sequentially from top to bottom: a substrate; a light-emitting layer disposed on the substrate; a cathode disposed on the light-emitting layer; a high n value inorganic salt layer disposed on surfaces of the cathode and the light-emitting layer; and a CPL layer disposed on the high n value inorganic salt layer. An entire thickness of the high n value inorganic salt layer and a part of a thickness of the cathode of the OLED panel corresponding to a position above the camera are removed to form a hollow portion, so that the thickness of the cathode above the camera is reduced, so as to increase the light transmittance, thereby improving the quality of photos.

An organic light-emitting diode (OLED) display panel and a manufacturing method thereof are provided. The OLED display panel includes a folding region and a non-folding region. The folding region includes a first flexible layer, an inorganic layer, a second flexible layer, a buffer layer, a metal wiring layer, a planarization layer, and a pixel defining layer, which are sequentially stacked. A side of the buffer layer opposite to the second flexible layer is provided with holes, and each of the holes is deposited with a first organic filling layer. The metal wiring layer covers a side of the buffer layer and the first organic filling layer, and a cross section of the first organic filling layer of the folding region is formed with a zigzag shape.

A display panel is provided. The display panel includes a thin film transistor array layer, a light-emitting device layer, and a light shielding layer disposed on a substrate in sequence. The light shielding layer is provided with openings corresponding to positions of light-emitting areas of the light-emitting device layer, an organic protective layer is disposed on the light shielding layer, and the openings of the light shielding layer are filled with the organic protective layer having a transparent material. The present disclosure, by removing conventional red, green, and blue color resists which cover the light-emitting areas of the display panel, solves a problem of reduced yield of a color filter functional layer in a plurality of wet etching processes.

The present invention provides a display device, a display panel, and a manufacturing method thereof. The display panel includes an opening area, a peripheral area surrounding at least a part of the opening area, and a display area, wherein the display panel further includes: a thin film transistor substrate; a plurality of ring-shaped retaining walls disposed on a part of the thin film transistor substrate corresponding to the peripheral area, and disposed around the opening area, wherein any one of the ring-shaped retaining walls is provided with at least an opening; and a filling layer disposed in the peripheral area.

A display device according to an embodiment includes: a substrate; a light emitting element which is disposed on the substrate, and includes a first electrode, an emission layer, and a second electrode; a reflective layer which is disposed on the light emitting element, and includes an inorganic material; an encapsulation layer which is disposed on the reflective layer; a light blocking layer which is disposed on the encapsulation layer, and defines an opening overlapping the emission layer in a plan view; a reflection adjusting layer which is disposed on the light blocking layer; and a first organic layer which is disposed on the reflection adjusting layer, and defines an opening overlapping the emission layer in the plan view.

A display device includes a substrate having a display area and a non-display area; a first transistor that is disposed on the substrate and that overlaps the display area; a first pixel defining layer disposed on the first transistor; a first emission layer disposed in the first pixel defining layer; a second pixel defining layer that is disposed on the substrate and that overlaps the non-display area; a second emission layer disposed in the second pixel defining layer; a second electrode disposed on the first emission layer and the second emission layer; and an encapsulation organic layer disposed on the second electrode, wherein the encapsulation organic layer overlaps the first pixel defining layer and the second pixel defining layer, and an end of the encapsulation organic layer is disposed inside the second pixel defining layer.