Provided are a display apparatus having improved display quality, and a method of manufacturing the display apparatus. The display apparatus includes a pixel circuit layer arranged on a substrate, and a display element layer arranged on the pixel circuit layer. The display element layer includes a display element including a pixel electrode, an intermediate layer arranged on the pixel electrode, and an opposite electrode, a pixel-defining layer having an opening that exposes a portion of the pixel electrode, a spacer arranged on the pixel-defining layer, and a conductive pattern arranged on the spacer.

A light emitting device in which light emitting elements sealed by a sealing layer are arranged on a surface of a substrate, is provided. Each of the light emitting elements comprises a first electrode arranged between the substrate and the sealing layer, a second electrode arranged between the first electrode and the sealing layer, and an organic light emitting layer arranged between the first electrode and the second electrode. The light emitting device further comprises an insulating layer configured to cover a edge portion of the first electrode and arranged between the substrate and the sealing layer in a portion between two adjacent light emitting elements, and a light shielding member arranged between the two adjacent light emitting elements, extending through the insulating layer, and extending in the insulating layer and the sealing layer in a direction intersecting the surface.

A light emitting device in which light emitting elements are arranged on a surface of a substrate is provided. Each of the light emitting elements comprises a light emitting layer, a reflective layer arranged between the light emitting layer and the surface, a first electrode arranged between the reflective layer and the light emitting layer, an optical distance adjustment layer arranged between the reflective layer and the first electrode, an insulating layer covering a peripheral portion of the first electrode and arranged, between two light emitting elements adjacent to each other, between the optical distance adjustment layer and the light emitting layer, and a conductive plug extending from the insulating layer to pass through the optical distance adjustment layer and reach a height of an upper surface of the reflective layer while being in electrical contact with the first electrode.

A display apparatus includes a semiconductor layer arranged on a substrate and including a channel area and a source area and a drain area respectively arranged at both sides of the channel area, the semiconductor layer including an opening portion arranged to be adjacent to one of the source area and the drain area, an electrode overlapping in a plan view and electrically connected to one of the source area and the drain area, and an insulating pattern arranged between the semiconductor layer and the electrode, wherein a first edge of the electrode adjacent to the opening portion is spaced apart from the opening portion, and an edge portion of the insulating pattern adjacent to the opening portion is spaced apart from the opening portion.

A display device and a manufacturing method thereof are disclosed. The display device includes a base substrate and at least one pixel circuit provided on the base substrate. The pixel circuit includes a driving transistor, a first transistor, and a second transistor; the base substrate includes a semiconductor body that can be doped, and a first conductive layer and a second conductive layer that are on the semiconductor body; the first transistor includes a first doped region in contact with the first electrode of the first transistor, and a second doped region in contact with a second electrode of the first transistor, and the first doped region of the first transistor and the second doped region of the first transistor are spaced apart from each other, have a same doping type, and are both in the semiconductor body.

Embodiments described herein relate to sub-pixel circuits and methods of forming sub-pixel circuits that may be utilized in a display such as an organic light-emitting diode (OLED) display. The device includes a plurality of sub-pixels, each sub-pixel of the plurality of sub-pixels defined by adjacent pixel-defining layer (PDL) structures with inorganic overhang structures disposed on the PDL structures, each sub-pixel having an anode, organic light-emitting diode (OLED) material disposed on the anode, and a cathode disposed on the OLED material. The device is made by a process including the steps of: depositing the OLED material and the cathode by evaporation deposition, and depositing an encapsulation layer disposed over the cathode.

The embodiments of the present disclosure provide a display panel, including: a base substrate, a first electrode layer, a luminescent material layer, a second electrode layer, an elastic lens layer and at least one light wavelength conversion layer arranged in sequence. The luminescent material layer is configured to emit an excitation light, the at least one light wavelength conversion layer is configured to convert the excitation light emitted from the luminescent material layer into light of a predetermined color, and the elastic lens layer is configured to converge the excitation light emitted from the luminescent material layer. The embodiments of the present disclosure further provide an electronic device and a method of manufacturing a display panel.

A display apparatus includes a substrate, a thin-film transistor, an insulating material stack, and a first dam structure. The substrate includes a display area and a peripheral area located outside the display area. The thin-film transistor layer overlaps the substrate. The insulating material stack overlaps the peripheral area. The first dam structure overlaps the substrate, is located closer to the display area than the insulating material stack, partially covers the insulating material stack, and reaches farther than the insulating material stack with reference to the substrate.

Provided is an organic light-emitting display substrate and a manufacturing method thereof, and an organic light-emitting display device. The organic light-emitting display substrate includes a display area and an opening area located at the display area. The display area includes: a base substrate; a partition pattern layer located on one side of the base substrate and including a partition wall around the opening area, the partition wall including a wall portion and a blocking portion located on one side of the wall portion away from the base substrate, an orthographic projection of the blocking portion on the base substrate covering and having an area greater than that of the wall portion on the base substrate; and an organic evaporation layer located on one side of the partition pattern layer away from the base substrate, the organic evaporation layer is discontinuous by being blocked by the partition wall.

A display device may include a transistor substrate including a driving element, and having a display area, and a non-display area surrounding the display area, a bank layer on the non-display area of the transistor substrate, and exposing an outer area of the non-display area of the transistor substrate that is opposite to the display area, an inorganic insulating layer covering an upper surface of the bank layer, a side surface of the bank layer, and the outer area of the transistor substrate, a low refractive layer on the inorganic insulating layer, and a first color filter layer on the non-display area to cover a portion of an upper surface of the inorganic insulating layer, and a side surface of the inorganic insulating layer.