A color filter substrate, a method of manufacturing the color filter substrate and a display panel having the color filter substrate are disclosed. The color filter substrate includes: a base substrate; a first color filter located at one side of the base substrate; and a black matrix located at a side of the color filter away from the base substrate. The black matrix covers a portion of the color filter.

A display panel and a manufacturing method thereof and a display device are disclosed. The display panel includes a light emitting layer and a light filter pattern corresponding to the light emitting layers. The light filter pattern is arranged on the corresponding light emitting layer, the light filter pattern has a specific transmission spectrum; the light filter pattern is configured for filtering out the light corresponding to a spectrum outside the specific transmission spectrum and transmitting the light corresponding to the specific transmission spectrum. The display panel can have a decreased reflectivity of the ambient light and an increased contrast ratio.

A display panel and a manufacturing method thereof, the display panel includes a first sub-pixel strip, a second sub-pixel strip, and a third sub-pixel strip arranged in a row direction or a column direction. The sub-pixels on each sub-pixel strip of the present disclosure have the same color and are arranged in series. The first sub-pixels on the first sub-pixel strip and the second sub-pixels on the second sub-pixel strip are staggered to improve flatness of printing the luminous material and luminous uniformity of OLED devices.

A display apparatus includes a substrate having a bending region between a first region and a second region, the bending region being configured to be bent about a bending axis that extends in one direction; a display unit on the substrate; a first wiring unit at the bending region, the first wiring unit including a first bending portion having a plurality of first holes; and a second wiring unit spaced apart from the first wiring unit and at the bending region, the second wiring unit including a second bending portion having a different shape from the first bending portion.

Provided are a display substrate, a preparation method thereof, and a display apparatus. The display substrate includes a flexible substrate, a driving structure layer disposed on the flexible substrate, a light-emitting element disposed on the driving structure layer, and an encapsulation layer disposed on the light-emitting element. The flexible substrate includes a first flexible substrate layer, a first connection layer disposed on the first flexible substrate layer, and a second flexible substrate layer disposed on the first connection layer, wherein, the first connection layer includes at least one first via, and the first flexible substrate layer includes at least one first groove provided corresponding to the first via; the first via and the first groove are mutually communicated, and an orthographic projection of the first groove on the first flexible substrate layer includes an orthographic projection of the first via on the first flexible substrate layer.

A display substrate includes a first display region disposed on a substrate, wherein the first display region includes a plurality of light-emitting regions arranged in an array and a plurality of light-transmitting regions arranged in an array. The plurality of light-emitting regions and the plurality of light-transmitting regions are arranged alternately. Each of the light-emitting regions includes: a conductive layer disposed in the light-emitting region; and a cathode block disposed on the conductive layer. The first display region further includes connection portions that are disposed in the light-transmitting regions and located in a same layer and made of a same material as the conductive layers, and respectively configured to electrically connect cathode blocks of two adjacent light-emitting regions. Further provided is a manufacturing method of a display substrate.

Disclosed are a display substrate and a display device. The display substrate includes: a base substrate, a first gate layer, a second gate layer and a first conductive layer. The first gate layer includes a reset signal line extending in a first direction, and a first electrode block; the second gate layer includes a second electrode block, wherein the second electrode block is configured to form a storage capacitor with the first electrode block; and the first conductive layer includes a power line extending in a second direction, wherein the reset signal line and the power line have a first overlapped region, and the second electrode block and the power line have a second overlapped region. The width of the power line located in the first overlapped region is smaller than the width of the power line located in the second overlapped region.

Various embodiments of the present disclosure are directed towards an integrated circuit (IC) chip comprising a display pixel in which a bottom electrode and a reflector are separate and border. A light emission device overlies the reflector, and a top electrode overlies the light emission device. A coupling structure extends from the bottom electrode, alongside the reflector, to an interface between the light emission device and the reflector to electrically couple the bottom electrode to the light emission device.

In order to provide a display apparatus with improved durability and improved impact resistance and a method of manufacturing the same, the disclosure provides a display apparatus and a method of manufacturing the same, the display apparatus including a substrate, a semiconductor layer disposed on the substrate, an insulating layer covering the semiconductor layer and including a first hole exposing a portion of the semiconductor layer, a first conductive layer disposed on the insulating layer and including a second hole overlapping the first hole, and a second conductive layer in contact with the portion of the semiconductor layer via the first hole and the second hole.

A display apparatus includes: a first light-emitting device, a second light-emitting device, and a third light-emitting device, on a substrate; a first color conversion layer and a second color conversion layer respectively on the first light-emitting device and the second light-emitting device; a transmissive layer on the third light-emitting device; and an optical functional layer on the first color conversion layer, the second color conversion layer, and the transmissive layer, and comprising a reflective metal layer and a light-absorbing layer, the light-absorbing layer being on the reflective metal layer, wherein the optical functional layer comprises a plurality of openings respectively corresponding to a first emission area of the first light-emitting device, a second emission area of the second light-emitting device, and a third emission area of the third light-emitting device.