An array substrate comprises a substrate, a common electrode formed on the substrate, a light shielding layer disposed on the common electrode, an insulating layer disposed on the light shielding layer and the common electrode, a poly-silicon layer, a gate insulating layer, a gate connected with the common electrode by a hole, a medium layer and a source drain. A method for manufacturing the array substrate comprises forming a transparent conductive layer and a first metallic layer on the substrate, forming patterned common electrode and light shielding layer by multiple steps of etching so that a process of photomask can be saved, and forming holes connecting with the common electrode and the gate by a photomask etching process, then manufacturing a medium layer and a source drain. The method adopts seven processes of photomask so that the process is simplified, and the cost is lowered.

A display device includes: a first substrate; a gate line on the first substrate, where the gate line extends in a first direction; a data line on the first substrate, where the data line extends in a second direction which intersects the first direction; a thin film transistor connected to the gate line and the data line; a passivation layer on the gate line, the data line and the thin film transistor, where the passivation layer includes a recessed portion; a light blocking portion on the recessed portion of the passivation layer; a main column spacer which protrudes upwardly from the light blocking portion; and a sub-column spacer which protrudes upwardly from the light blocking portion, where the sub-column spacer is spaced apart from the main column spacer.

An array substrate, a manufacturing method thereof, a display device, a thin-film transistor (TFT) and a manufacturing method thereof are disclosed. The method for manufacturing the TFT comprises: forming a pattern of an active layer and a gate insulating layer provided with a metal film on a base substrate; patterning the metal film by one patterning process, and forming patterns of a gate electrode, a source electrode, a drain electrode, a gate line and a data line; forming a passivation layer on the base substrate; patterning the passivation layer by one patterning process, and forming a source contact hole, a drain contact hole and a bridge structure contact hole; and forming a transparent conductive film on the base substrate, and removing partial transparent conductive film to form a source contact portion, a drain contact portion (214), a pixel electrode and a bridge structure. The manufacturing method can reduce the number of the patterning processes.

The TFT array substrate and the manufacturing method thereof are disclosed. The dual-layer structure having the bottom gate electrode, including the metal layer and the transparent metal oxide layer, and the common electrode, including the common electrode, may be formed by the same masking process. In this way, the number of masking processes may be decreased so as to enhance the manufacturing efficiency and the cost.

Disclosed is an LCD device having a dual link structure and a method of manufacturing the same, which can reduce a width of a bezel. A link line structure includes a plurality of first and second link lines which are alternately disposed. The first and second link lines are formed on different layers. Also, embodiments herein provide a method which can reduce the number of masks used in a manufacturing process and can easily manufacture the LCD device in consideration of the possibility of misalignment of exposure equipment.

A COA substrate manufacturing method including: forming a TFT on a base substrate; forming a second insulation layer on the TFT; forming a color resist layer on the second insulation layer; forming a third insulation layer on the color resist layer; forming a through hole which reveals the drain electrode of the TFT; forming an ITO film layer on the third insulation layer; forming a photoresist layer on the ITO film layer; performing a light-shielding process to the photoresist layer on the vias-region ITO film layer and an exposure process to the photoresist layer on the non vias-region ITO film layer; developing the photoresist layer on the vias-region ITO and the non vias-region ITO film layers to obtain a photoresist layer plug covered on the vias-region ITO film layer. The present invention utilizes the photoresist to fill the through hole which can improve the quality of a display device.

An array substrate, a manufacturing method thereof, a display device, a thin-film transistor (TFT) and a manufacturing method thereof are disclosed. The method for manufacturing the TFT comprises: forming a pattern of an active layer and a gate insulating layer provided with a metal film on a base substrate patterning the metal film by one patterning process, and forming patterns of a gate electrode a source electrode, a drain electrode a gate line and a data line; forming a passivation layer on the base substrate; patterning the passivation layer by one patterning process, and forming a source contact hole, a drain contact hole and a bridge structure contact hole; and forming a transparent conductive film on the base substrate, and removing partial transparent conductive film to form a source contact portion, a drain contact portion, a pixel electrode and a bridge structure.

An array substrate and manufacturing method thereof and a display device. The display device includes a pixel electrode (8), including a first portion (b) in a non-display region and a second portion (a) in a display region; a first electrode (6) formed on the first portion (b) of the pixel electrode (8); a passivation layer (9) formed on the pixel electrode (8) and the first electrode (6), the passivation layer (9) includes a via hole (11) located over the first electrode (6); an active layer (4) and a second electrode (7) that are formed on the passivation layer (9), the active layer (4) being connected to the first electrode (6) through the via hole (11) of the passivation layer (9). With the array substrate and the manufacturing method thereof, the manufacturing cost is reduced, materials of the electrodes are less subjected to corrosion, and quality of the array substrate is enhanced.

The present disclosure provides a display substrate and a mask plate, the display substrate comprising a plurality of sub display substrates, each of the sub display substrates comprising a plurality of pixel units, each pixel unit comprising a pixel electrode, a common electrode and a source-drain channel, wherein, from the center of the display substrate to the edge of the display substrate, the plurality of sub display substrates are arranged from large to small according to the overlapping area of the pixel electrode and the common electrode and/or the plurality of sub display substrates are arranged from small to large according to the width to length ratio of the source-drain channel of the sub display substrate. The present disclosure can avoid electrical badness of the sub display substrates located at the edges.

Exemplary embodiments of the present disclosure provide a thin film transistor array panel including a first insulating substrate; a gate line and a data line disposed on the first insulating substrate, intersecting with each other, and being insulated from each other; a first passivation layer disposed on the gate line and the data line and comprising a plurality of first openings; a first electrode disposed on the first passivation layer; and a second electrode disposed in the first opening, thereby simplifying a manufacturing process of the thin film transistor array panel.