Abstract: The present disclosure provides an array substrate, its manufacturing method and a display device. The array substrate includes a thin film transistor. A source electrode and a drain electrode are located above a pattern of an active layer, and the source electrode and the drain electrode are in electrical contact with the pattern of the active layer through a first via-hole penetrating an insulating structure. Before the formation of the source electrode and the drain electrode, the pattern of the active layer is subjected to ion injection through the first via-hole, so as to form an ion injection region.

Abstract: An array substrate, a display device and a manufacturing method of the array substrate. The array substrate includes: a base substrate (1) and a plurality of pixel units located on the base substrate (1), each of the pixel units including a thin film transistor unit. The thin film transistor unit includes: a gate electrode located on the base substrate (1), a gate insulating layer (3) located on the gate electrode, an active layer (4) located on the gate insulating layer (3) and opposed to the gate electrode in position, an ohmic layer (5) located on the active layer (4), a source electrode (6a) and a drain electrode (6b) that are located on the ohmic layer (5) and a resin passivation layer (8) that are located on the source electrode (6a) and the drain electrode (6b) and covers the substrate.

Abstract: The present invention provides a method for fabricating a color filter substrate, including: carrying out a first ultraviolet light irradiation and a heating treatment on functional layers formed by patterning process on a substrate; forming an alignment layer on the functional layers; and carrying out a second ultraviolet light irradiation on the alignment layer. The present invention further provides a display panel including the color filter substrate fabricated by using the method and a display device including the display device.

Abstract: A mask plate is used for implementing a graphic structure with a narrower line width on a target substrate. The mask plate includes a slit-shaped photic area and a lightproof area. An edge of the slit-shaped photic area is in a curve shape.

Abstract: A thin film transistor (TFT) array substrate, a manufacturing method thereof and a display device are provided. The manufacturing method comprises: forming a first passivation layer (8) on a substrate (1), and forming a board wiring PAD-region via hole (11) in the first passivation layer (8) above the board wiring PAD region (11) through a first patterning process; forming a second passivation layer (16) on the substrate (1) formed with the board wiring PAD-region via hole (11), and forming a pixel-region via hole (15) in the first passivation layer (8) and the second passivation layer (16) above the display electrode (7) through a second patterning process in such a way that the pixel-region via hole (15) has a top-size smaller than its bottom-size; and applying a transparent conductive layer on the substrate (1) formed with the pixel-region via hole (15) to form a second display electrode.

Abstract: The present disclosure provides an array substrate and a capacitive in-cell touch panel with the array substrate. The array substrate includes a common electrode layer which is partitioned into a plurality of touch driving electrodes and a plurality of common electrodes arranged alternately. Each touch driving electrode is configured to be applied with a common electrode signal and a touch scanning signal in a time-division manner. Each touch driving electrode includes a plurality of touch driving sub-electrodes spaced apart from each other in an extension direction of the touch driving electrode, and metal wires configured to connect the adjacent touch driving sub-electrodes.

Abstract: The present disclosure provides an array substrate, its manufacturing method and a display device. The array substrate includes a thin film transistor. A source electrode and a drain electrode are located above a pattern of an active layer, and the source electrode and the drain electrode are in electrical contact with the pattern of the active layer through a first via-hole penetrating an insulating structure. Before the formation of the source electrode and the drain electrode, the pattern of the active layer is subjected to ion injection through the first via-hole, so as to form an ion injection region.

Abstract: The present invention provides a color filter substrate, a display device and a detection method thereof, aims to solve the problems of difficulty in failure positioning and low detection efficiency in existing display panels. The color filter substrate comprises a plurality of sub-pixels arranged in an array, each of the sub-pixels is provided with a color filter, and at least a part of columns of sub-pixels are marked column of sub-pixels. The shapes of the color filters of a part of sub-pixels of the marked column of sub-pixels are different from those of the remaining sub-pixels. The display device comprises the above-mentioned color filter substrate. The color filter substrate can be used in the display device, particularly suitable for the display device which adopts double side GOA circuits.

Abstract: A sensor and its fabrication method are provided, the sensor includes: a base substrate, a group of gate lines and a group of data lines arranged as crossing each other, and a plurality of sensing elements arranged in an array and defined by the group of gate lines and the group of data lines, each sensing element comprising a TFT device and a photodiode sensing device, wherein: the TFT device is a top gate TFT; the photodiode sensing device includes: a bias electrode and a bias electrode pin connected with the bias electrode, both of which are disposed on the base substrate; a photodiode disposed on the bias electrode and a transparent electrode disposed on the photodiode and connected with the source electrode.

Abstract: A thin film transistor, an amorphous silicon flat detection substrate and a manufacturing method are provided. The material for a source electrode and a drain electrode of the thin film transistor is a conductor converted from the material for the amorphous metal oxide active layer by depositing an insulating substance containing hydrogen ions not less than a preset value, which reduces the valence band level difference between the source and the drain electrodes and the active layer, realizes good lattice matching and improves electricity characteristics of the thin film transistor.

Abstract: Embodiments of the disclosure provide a signal line fabrication method, an array substrate fabrication method, an array substrate and a display device. The signal line fabrication method includes: sequentially forming a material layer for forming the signal line, a material layer for forming a first barrier layer and a material layer for forming a second barrier layer; forming the first barrier layer and the second barrier layer by a patterning process; and forming the signal line by a patterning process.

Abstract: A flat panel detector comprises a photoelectric conversion layer and a pixel detecting element disposed under the photoelectric conversion layer. The pixel detecting element comprises: a pixel electrode for receiving charges, a storage capacitor for storing the received charges, and a thin film transistor for controlling outputting of the stored charges. The storage capacitor comprises a first electrode and a second electrode. The first electrode comprises an upper electrode and a bottom electrode that are disposed opposite to each other and electrically connected. A second electrode is sandwiched between the upper electrode and the bottom electrode. It is insulated between the upper electrode and the second electrode and between the second electrode and the bottom electrode.

Abstract: The present invention discloses an array substrate and a manufacturing method thereof, and a display device, and relates to the field of display technology, in order to reduce the leakage current of the TFT, improve the stability of the TFT, and enhance the display effect of the display device. The array substrate comprises: a transparent substrate, a TFT on the transparent substrate, a first passivation layer covering the TFT, a first transparent electrode on a surface of the first passivation layer, and a light blocking structure for preventing light transmission provided at a position, corresponding to a channel of the TFT, on a side of the TFT away from the transparent substrate.

Abstract: The present disclosure provides an array substrate, a manufacturing method thereof and a display device. The array substrate includes an active layer, a gate insulating layer and a gate electrode layer formed sequentially on a base substrate. The active layer includes a first heavily-doped region, a first lightly-doped region, a first non-doped region, a second lightly-doped region, a second non-doped region, a third lightly-doped region and a second heavily-doped region which are sequentially arranged in a horizontal direction.

Abstract: A thin film transistor, a manufacturing method thereof and an array substrate are provided. The thin film transistor includes: a gate electrode (102) formed on a substrate (101), a gate insulating layer (103) formed on the gate electrode (102) and covering at least a part of the substrate (101), and a semiconductor layer (105?), a source electrode (107a) and a drain electrode (107b) which are formed on the gate insulating layer (103). The material of the semiconductor layer (105?) is an oxide semiconductor; and the material of the source electrode (107a) and drain electrode (107b) is the oxide semiconductor which is doped. The source electrode (107a), the drain electrode (107b) and the semiconductor layer (105?) are disposed in the same layer.

Abstract: A manufacture method of a via hole for a display panel, a manufacture method of a display panel, and a display panel are provided. During forming the via hole, a top film layer in an area to be formed with a via hole over a circuit pattern is etched under a first etching condition according to a slope angle as required; and a remaining portion in the area to be formed with a via hole is etched under a second etching condition according to a selection ratio as required, so as to form the via hole finally. A problem in one-step etching process that the slope angle and the selection ratio cannot be set flexibly is avoided.

Abstract: An array substrate, a display device and a manufacturing method of the array substrate. The array substrate includes: a base substrate (1) and a plurality of pixel units located on the base substrate (1), each of the pixel units including a thin film transistor unit. The thin film transistor unit includes: a gate electrode located on the base substrate (1), a gate insulating layer (3) located on the gate electrode, an active layer (4) located on the gate insulating layer (3) and opposed to the gate electrode in position, an ohmic layer (5) located on the active layer (4), a source electrode (6a) and a drain electrode (6b) that are located on the ohmic layer (5) and a resin passivation layer (8) that are located on the source electrode (6a) and the drain electrode (6b) and covers the substrate.

Abstract: An array substrate and a transflective liquid crystal display panel. The array substrate includes: a plurality of sub-pixel areas defined by gate lines and data lines distributed across each other, each of the sub-pixel areas comprising a transmission area and a reflection area, wherein, the array substrate further comprises an adjustment module; the adjustment module is configured to transmit an adjustment signal to the reflection area and adjust the reflection area from opaque state to transparent state upon an external light intensity being smaller than a preset light intensity.

Abstract: A thin film transistor liquid crystal display (TFT-LCD) array substrate comprises a gate line, a data line, a pixel electrode and a thin film transistor. The pixel electrode and the thin film transistor are formed in a pixel region defined by intersecting of the gate line and the data line, and the thin film transistor comprises a gate electrode, a semiconductor layer, a source electrode and a drain electrode. Two separate parts of the surface of the semiconductor layer are treated by a surface treatment to form into an ohmic contact layer, and the source electrode and the drain electrode are connected with the semiconductor layer through the ohmic contact layer in the two separate parts, respectively.

Abstract: A thin film transistor and a manufacturing method thereof, an array substrate and a manufacturing method thereof, and a display device are disclosed. The manufacturing method of the array substrate includes depositing an amorphous silicon thin film layer on a base substrate; performing a patterning process on the amorphous silicon thin film layer, so as to form a pattern with multiple small pores at a surface of the amorphous silicon thin film layer. With this method, when a laser annealing treatment of amorphous silicon is performed, the molten silicon after melting fills the space of small pores at a surface of the amorphous silicon thin film layer firstly, thereby avoiding forming a protruded grain boundary that is produced because the excess volume of polysilicon is squeezed.