The present invention relates to a pixel structure and a display panel containing the same. The pixel structure includes a main area and a sub-area respectively provided with four domains, wherein the main area is located above the sub-area, and the main area and the sub-area are respectively connected with driving thin-film transistors (TFTs) for current charging; wherein a quantity of the driving thin-film transistors (TFTs) connected to the main area is greater than a quantity of the driving TFTs connected to the sub-area, such that a voltage of the main area is greater than a voltage of the sub-area. The invention provides a pixel structure which adopts a novel design of an 8-domain structure, which improves an aperture ratio thereof, thereby reducing the risk of becoming a bright spot.

A liquid crystal display comprises a plurality of pixels, wherein the pixels comprise first pixels, second pixels, and third pixels, each of the third pixels comprises a third/first pixel and a third/second pixel including spacers that are different from each other, each of the pixels comprises a transistor and an opening exposing at least part of the transistor, at least one of the first pixel and the second pixel comprises a first spacer, the third/first pixel comprises a second spacer having a smaller area than the first spacer in a plan view, the third/second pixel comprises a third spacer having a different height from the first spacer and the second spacer, the first spacer and the second spacer overlap the opening of the pixel in which the first spacer and the second spacer are respectively disposed, and the third pixels corresponds to different colors from the first pixel and the second pixel.

A method for manufacturing an active matrix substrate including a thin film transistor for each pixel, and a first electrode and a first wiring line for touchscreen panel function includes: forming a transparent electrically conductive film on an interlayer insulating layer and within a first contact hole; forming, on a portion of the transparent electrically conductive film, an upper wiring portion to become an upper layer of the first wiring line; patterning the transparent electrically conductive film to make a pixel electrode and form a lower wiring portion to become a lower layer of the first wiring line; forming a dielectric layer covering the pixel electrode and the first wiring line and having a second contact hole through which a portion of the first wiring line is exposed; and forming a common electrode which is electrically connected to the first wiring line within the second contact hole.

A liquid crystal display (LCD) panel includes two substrates and one or more pixel arrays disposed therebetween. The one or more pixel arrays define a pixel matrix having a plurality of pixels. For each of the pixels, the one or more pixel arrays form a mirrored pixel circuit structure including a first pixel electrode and a second pixel electrode opposite to each other. The first pixel electrode and the second pixel electrode in each of the pixels are independently controlled. A quantity of gray levels displayed by each of the pixels of the LCD panel is M, the first pixel electrode and the second pixel electrode in each of the pixels are provided with a voltage switchable between N analog levels, M and N are integers, and N=2{square root over (M)}.

A display device includes: a substrate; a gate line disposed on the substrate and configured to transmit a gate signal; a reference voltage line disposed apart from the gate line and configured to transmit a reference voltage; an insulation layer disposed on the gate line and the reference voltage line; a pixel electrode layer including: a first sub-pixel electrode disposed on the insulation layer and located at a first side with reference to the gate line; and a second sub-pixel electrode disposed on the insulation layer and located at a second side opposite to the first side with reference to the gate line; and a conductive shield portion disposed on the gate line, wherein the gate line includes two parallel edges, an edge closer to the reference voltage line among the two parallel edges including a first edge, and wherein the conductive shield portion overlaps the first edge.

A liquid crystal display according to an embodiment comprises a plurality of pixels included in a first display panel, and a second display panel overlapping the first display panel, wherein the plurality of pixels comprise a first pixel, a second pixel, and third pixels , the third pixels comprises a third/first pixel and a third/second pixel including spacers that are different from each other, each of the plurality of pixels comprises a transistor and an opening exposing at least part of the transistor, at least one of the first pixel and the second pixel comprises a first spacer, the third/first pixel comprises a second spacer having a smaller area than the first spacer in a plan view, the third/second pixel comprises a third spacer having a different height from the first spacer and the second spacer, and the first spacer and the second spacer overlap the opening of the pixel in which the first spacer and the second spacer are respectively disposed, wherein the third pixels correspond to different colors from the first pixel and the second pixel.

A display device includes: a first substrate that includes a plurality of first pads arranged in a first direction and a plurality of second pads arranged in parallel with the plurality of first pads; a second substrate that overlaps the first substrate and includes a second substrate including one edge exposing the plurality of first pads and the plurality of second pads; a first flexible printed circuit board that is electrically connected with the plurality of first pads; a second flexible printed circuit board that overlaps the first flexible printed circuit board and is electrically connected with the plurality of second pads; a protective layer that covers the first flexible printed circuit board and the second flexible printed circuit board from one edge of the second substrate to a width including the plurality of first pads and the plurality of second pads; and a blocking portion disposed on the first substrate at a distance from one edge of the second substrate by a width of the protective layer and contacting the protective layer.

An active matrix substrate according to an aspect of the disclosure includes a pixel portion including a plurality of gate lines and a plurality of source lines, and a plurality of pixel electrodes, and a split switch circuit configured to split a signal from a source driver to supply to the plurality of source lines, wherein the pixel portion includes a first TFT including a first oxide semiconductor layer, the split switch circuit includes a second TFT including a second oxide semiconductor layer and a third oxide semiconductor layer, and the third oxide semiconductor layer covers at least a portion of an upper face and a portion of an edge face of the second oxide semiconductor layer.

The present invention relates to a cyanoaryl substituted compound of formula (I), (I) wherein m is 0-4; R.sup.2, R.sup.3, R.sup.4 and R.sup.5 are selected from hydrogen, chlorine, bromine and C.sub.6-C.sub.24-aryl, which carries one to three cyano; each R.sup.1 independently from each other is selected from bromine, chlorine, cyano, NRaRb, C.sub.1-C.sub.24-alkyl, C.sub.1-C.sub.24-haloalkyl, C1-C24-alkoxy, C.sub.1-C.sub.24-haloalkoxy, C.sub.3-C.sub.24-cycloalkyl, heterocycloalkyl, heteroaryl, C.sub.6-C.sub.24-aryl, C.sub.6-C.sub.24-aryloxy, C.sub.6-C.sub.24-aryl-C.sub.1-C.sub.10-alkylene, etc., with the proviso that at least one of the radicals R.sup.1, R.sup.2, R.sup.3, R.sup.4 and R.sup.5 is C.sub.6-C.sub.24-aryl, which carries one to three cyano; X is O, S, SO or SO.sub.2; A is a diradical of the formulae (A.1), (A.2), (A.3), or (A.4) wherein *, R.sup.6, (R.sup.7)n, (R.sup.8)o and (R.sup.9)p are as defined in the claims and in the description. The invention also relates to the use of said compound(s) in color converters, to said color converters and their use, to lighting devices, to a backlight unit for liquid crystal displays; a liquid crystal display device and a self-emissive display device comprising at least one compound (I).

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An array substrate and a manufacturing method thereof, a display device and a driving method thereof. The array substrate includes: a first thin film transistor, a second thin film transistor and a pixel electrode, the pixel electrode being electrically connected to the first thin film transistor and the second thin film transistor, one of the first thin film transistor and the second thin film transistor being an n-type thin film transistor, and another one being a p-type thin film transistor.