Provided are a display device and a method for manufacturing the same. The display device includes: a connection source electrode and a connection drain electrode connected to a first source electrode a the first drain electrode, respectively by penetrating an isolation insulating layer and a second interlayer dielectric layer to enhance a characteristic of an element and reliability of the display device.

The present disclosure provides an array substrate and a manufacturing method for the array substrate. The manufacturing method includes: forming a light-shielding layer, a source, and a drain on the substrate by using a first photomask; forming a semiconductor layer, a gate insulating layer, and a gate which are laminated on the source, the drain, and light-shielding layer by using a second photomask; forming a dielectric layer on the gate and the substrate, and a via hole exposing the drain on the dielectric layer by using a third photomask; and forming a pixel electrode on the dielectric layer by using a fourth photomask.

A thin film transistor array substrate and a display device are provided. The thin film transistor array substrate includes a first semiconductor layer, a second semiconductor layer, a first gate electrode, a conductive layer, a second gate electrode, a third gate electrode, and an intermediate insulating layer. The first semiconductor layer and the second semiconductor layer are made of different semiconductor materials. The first gate electrode and the conductive layer overlap with the first semiconductor layer. The second gate electrode and the third gate electrode overlap with the second semiconductor layer. The intermediate insulating layer is disposed between the second semiconductor layer and the second gate electrode.

Provided are a display device and a method for manufacturing the same. The display device includes: a connection source electrode and a connection drain electrode connected to a first source electrode a the first drain electrode, respectively by penetrating an isolation insulating layer and a second interlayer dielectric layer to enhance a characteristic of an element and reliability of the display device.

A semiconductor device includes thin film transistors each having an oxide semiconductor. The oxide semiconductor has a channel region, a drain region, a source region, and low concentration regions which are lower in impurity concentration than the drain region and the source region. The low concentration regions are located between the channel region and the drain region, and between the channel region and the source region. Each of the thin film transistors has a gate insulating film on the channel region and the low concentration regions, an aluminum oxide film on a first part of the gate insulating film, the first part being located on the channel region, and a gate electrode on the aluminum oxide film and a second part of the gate insulating film, the second part being located on the low concentration regions.

The present application discloses a display panel, a manufacturing method thereof, and a display device. The display panel includes a substrate; a gate layer; a gate insulating layer; an active layer; a source-drain layer including a source electrode and a drain electrode; a passivation layer provided with a contact hole; and a pixel electrode layer connected to the drain electrode through the contact hole; wherein a light-transmitting etch stop layer is disposed at a hole bottom of the contact hole, and the light-transmitting etch stop layer at least partially covers a hole bottom of the contact hole.

The present disclosure provides a display substrate, a manufacturing method thereof, and a display device. The display substrate includes a base substrate and a plurality of pixels arranged on the base substrate, each pixel includes a plurality of sub-pixels, and each sub-pixel includes a first active layer, a first gate insulation layer, a gate electrode, a second gate insulation layer, a second active layer, a first insulation layer, a source electrode and a drain electrode laminated one on another. The source electrode is connected with the first active layer through a via hole penetrating through the first insulation layer, the second gate insulation layer and the first gate insulation layer, and the source electrode and the drain electrode are connected with the second active layer through a via hole penetrating through the first insulation layer.

A display panel includes: a base layer; a signal line disposed on the base layer, the signal line including: a first layer including aluminum; and a second layer directly disposed on the first layer, the second layer including a niobium-titanium alloy; a first thin film transistor connected to the signal line; a second thin film transistor disposed on the base layer; a capacitor electrically connected to the second thin film transistor; and a light emitting element electrically connected to the second thin film transistor.

An example two transistor (2T) gain cell memory with indium-gallium-zinc-oxide (IGZO) transistors. Examples include IGZO transistors included in a dynamic random access memory (DRAM) cell. The IGZO transistors included in the DRAM cell are described as being formed or created in a back end (BE) metal process stack of an integrated circuit chip or die.

A display device includes an insulating layer located in a gap between a first electrode and a second electrode and including an application-type insulating material, and an oxide semiconductor layer, at least a portion of which functions as a channel of a first transistor. The oxide semiconductor layer is in contact with the upper surface of the insulating layer.