A display substrate, a display panel, and preparation methods thereof. The display substrate includes a base substrate, a bonding pad, and an insulating layer. The bonding pad is located on one side of the base substrate and includes at least two bonding pad layers stacked in a thickness direction of the base substrate. The insulating layer is located between adjacent two of the bonding pad layers, and the insulating layer includes a via. In adjacent two of the bonding pad layers, the bonding pad layer on the side away from the base substrate extends into the via and is electrically connected to the bonding pad layer on the side close to the base substrate.

In an embodiment a semiconductor arrangement includes at least one semiconductor component with a functional layer stack. The functional layer stack includes a first layer of a first conductivity type, a second layer of a second conductivity type arranged on the first layer, an active zone located between the first and the second layer and an electrically conductive nanowire layer, wherein the electrically conductive nanowire layer is arranged at least in regions on a side of the second layer facing away from the first layer. The semiconductor arrangement further includes a holding layer with at least one elevation, wherein the at least one semiconductor component is arranged on the at least one elevation such that a cavity is formed between the at least one semiconductor component and the holding layer, and wherein the nanowire layer is at least partially exposed.

A Micro-LED display chip and a method for manufacturing the same are provided according to the present application. The method includes: providing a driving substrate; providing a first LED layer; bonding the first LED layer to the driving substrate, where the first LED units and a first conductive column are electrically connected to contacts respectively; disposing a second LED layer on the first LED layer, where the second LED layer consists of multiple second LED units and a second filling structure located between the second LED units, the second LED units are electrically connected to the first conductive column directly below them, and the second LED units emit light of a different color from that of the first LED units. This facilitates reducing the process difficulty in manufacturing the multicolor Micro-LED display chips.

Disclosed are a leadframe, a bracket and an LED device. The leadframe includes a first photo-etched metal part, having a first electrode and a chip placement layer thereon, which has a greater length for short and long edges than those of the first electrode; and a second photo-etched metal part, composed of a second electrode and a connection layer thereon, which has a greater length for short and long edges than those of the second electrode; wherein a first long edge of the chip placement layer is flush with a first long edge of the first electrode, and a first long edge of the connection layer is flush with a first long edge of the second electrode; and wherein the chip placement layer and the connection layer are provided with L-shaped pins at corners of their first long edges to cover sidewalls of the corresponding corners.

A light emitting device may include a substrate. A light emitting element layer may be disposed on the substrate and may include light emitting elements having a rod shape. A color conversion layer may be disposed on the light emitting element layer and may include color conversion elements having a rod shape. A first alignment direction of the light emitting elements and a second alignment direction of the color conversion elements may be substantially parallel to each other or intersect at a predetermined angle.

The present disclosure provides a display apparatus, a display panel and a method of preparing the same. A display panel includes: a base substrate; and a plurality of light-emitting units provided on the base substrate, where each of the light-emitting units includes a first electrode, a first semiconductor layer, a light-emitting layer, a second semiconductor layer, and a second electrode which are stacked, the first electrode is provided on a side of the second electrode facing away from the base substrate, and the plurality of light-emitting units share a common first electrode. The present disclosure can improve display resolution.

A display panel, a method for manufacturing a display panel, and a display apparatus. The display panel includes a display region, a non-display region at least partially surrounding the display region, and further includes a base plate, a wiring layer, a light-emitting layer, and an isolation structure. The wiring layer is located on a side of the base plate and includes a metal layer located in the display region and a signal line layer located in the non-display region. The light-emitting layer is located on a side of the wiring layer away from the base plate and includes a plurality of light-emitting units. The isolation structure is located on a side of the wiring layer away from the base plate and is provided with an isolation opening configured to accommodate the light-emitting unit.

A chip structure includes a chip wafer unit and a color conversion substrate unit disposed on a light-exit side of the chip wafer unit. The chip wafer unit includes a light-emitting layer and an electrode layer sequentially stacked in a first direction. The light-emitting layer includes light-emitting portions. Each light-emitting portion includes at least two light-emitting sub-portions. The electrode layer includes a cathode, connection electrodes, and anodes in one-to-one correspondence with the light-emitting portions. The at least two light-emitting sub-portions are sequentially connected through at least one connection electrode. Among the at least two light-emitting sub-portions sequentially connected, a first one light-emitting sub-portion is a first selected light-emitting sub-portion, and a last one light-emitting sub-portion is a second selected light-emitting sub-portion. The first selected light-emitting sub-portion is connected to the cathode, and the second selected light-emitting sub-portion is connected to an anode.

A light-emitting substrate has a display region and a peripheral region located on at least one side of the display region, the peripheral region includes a first peripheral region, and the first peripheral region and the display region are spaced apart in a first direction. The light-emitting substrate includes: a substrate; a first conductive layer disposed on the substrate, the first conductive layer including a plurality of signal lines located in the display region; an insulating layer covering the plurality of signal lines; and a second conductive layer disposed on the insulating layer. The insulating layer includes a first insulating layer and a second insulating layer sequentially stacked in a direction away from the substrate; and at least between the first peripheral region and the display region, at least part of edges of the first insulating layer exceeds an edge of the second insulating layer.

The present application provides a display panel, a manufacturing method thereof, and a display device. By defining a first height difference between a first terminal part and a second terminal part of a first bonding terminal, so that after attaching a protective layer, a suspended area is defined between the protective layer and the first terminal part, so that when preparing a surrounding wire, a metal conductive thin film is disconnected in the suspended area, thus the surrounding wire will not be lifted when the protective layer is removed, so as to alleviate a problem of peeling of a surrounding wire of existing display panels when removing a protective layer.