Provided are a display substrate and a preparation method thereof, and a display apparatus. The display substrate includes a substrate, an active structure layer disposed on the substrate, a first source-drain structure layer disposed on a side of the active structure layer away from the substrate, and a second source-drain structure layer disposed on a side of the first source-drain structure layer away from the substrate. The active structure layer includes a first active layer and a second active layer. The first source-drain structure layer includes a first active via and a first source-drain electrode, and the first source-drain electrode is connected to the first active layer through the first active via; and the second source-drain structure layer includes a second active via and a second source-drain electrode, and the second source-drain electrode is connected to the second active layer through the second active via.

An apparatus for manufacturing a display device includes: a mask assembly, wherein the mask assembly includes: a mask frame including an open area; a first mask disposed on the mask frame, the first mask including at least one opening; a second mask disposed on the first mask, the second mask including a mesh portion having a mesh shape and a blocking member to shield a portion of the mesh portion; and a first support supporting a display substrate on the second mask and separating the display substrate from the second mask, wherein the blocking member overlaps the opening.

A display device includes a planarization layer disposed on a substrate, a first electrode disposed on the planarization layer and including silver (Ag), a contact preventing layer disposed on the first electrode, including a light absorbing material, and including a top surface and a side surface extending from an end of the top surface, and a pixel defining layer disposed on the contact preventing layer and including a bottom surface facing the top surface of the contact preventing layer, and a side surface extending from an end of the bottom surface. The first electrode includes a first region overlapping pixel defining layer. The contact preventing layer includes a second region overlapping the first region between the first electrode and the pixel defining layer. A first edge where the top and side surfaces of the contact preventing layer meet is located on the bottom surface of the pixel defining layer.

A FET is formed on a semiconductor substrate, a curved surface having a radius of curvature is formed on an upper end of an insulation, a portion of a first electrode is exposed corresponding to the curved surface to form an inclined surface, and a region defining a luminescent region is subjected to etching to expose the first electrode. Luminescence emitted from an organic chemical compound layer is reflected by the inclined surface of the first electrode to increase a total quantity of luminescence taken out in a certain direction.

Provided are a display device and a method of manufacturing the display device. The display device includes a substrate including a display area and a peripheral area outside the display area, a plurality of data lines disposed in the display area, a plurality of lines disposed in the display area, respectively connected to the plurality of data lines, and configured to respectively transmit a data signal from a driving circuit disposed in the peripheral area to the plurality of data lines, an insulating layer covering the plurality of lines; and a light-emitting element disposed on the insulating layer, wherein each of the plurality of lines comprises a plurality of branches branched in a direction crossing an extending direction of the line, and a black layer is disposed on an insulating layer at a position corresponding to an interval between a plurality of adjacent branches in a vertical direction.

A display panel and a manufacturing method are provided, wherein the display panel includes an array substrate, a first anode layer, a pixel definition layer, a second anode layer, a light-emitting layer, and a cathode layer. The array substrate includes an array area. The first anode layer is disposed on the array area. The pixel definition layer disposed on the array area and the first anode layer includes a plurality of holes and a first area. The second anode layer is disposed on the first area. The light-emitting layer is disposed in the plurality of holes. The cathode layer is disposed on the pixel definition layer and the light-emitting layer.

According to one embodiment, an organic semiconductor device includes a supporting substrate, a plurality of organic EL light emitting elements, a first barrier layer, a flattening layer, and a second barrier layer. The flattening layer exists sporadically and makes gentle in inclination steep elevation change present in the surface of the first barrier layer. The first barrier layer and the second barrier layer are made of moisture penetration preventive material.

An OLED display panel, a method of manufacturing the same, and a micro lens are provided. Each of pixel opening areas is provided with a first micro lens, a first planarization layer, a second micro lens, and a second planarization layer from inside to outside. The first micro lens closes the pixel opening area, the second micro lens is aligned with the first micro lens and covers the first micro lens and the pixel opening area. A refractive index of the first micro lens is less than a refractive index of the first planarization layer, and a refractive index of the second micro lens is greater than a refractive index of the second planarization layer.

A display panel, an array substrate, and a method of manufacturing thereof are provided, and the method includes: forming a semiconductor material layer, a barrier component, a first insulating layer, a gate, a second insulating layer, and an interlayer dielectric layer on the array substrate in order; performing a photolithographic process on the first insulating layer, gate, second insulating layer, and interlayer dielectric layer with a predetermined mask, forming a first via hole, a second via hole, and a groove; forming a source, drain, metal component and; and forming a planarization layer.

The present disclosure provides a display substrate, a chip-on-film, a display apparatus and methods for manufacturing them. The display apparatus includes: a base substrate; a bonding structure disposed on the base substrate; and a chip-on-film COF, wherein the COF and a side of the bonding structure that is away from the base substrate are clamped with each other, and the COF is bonded to the side of the bonding structure that is away from the base substrate; wherein when the COF and the bonding structure are bonded, the COF contacts both a first surface and a second surface of the bonding structure at the side of the bonding structure that is away from the base substrate, wherein the first surface is parallel to the base substrate, and the second surface is at an angle with the first surface.