This application discloses a display panel, a mask for manufacturing same, and a display device. The display panel includes a first substrate, a second substrate, a liquid crystal layer, a plurality of grooves, and a spacer. The second substrate and the first substrate are arranged oppositely. The liquid crystal layer is formed between the first substrate and the second substrate. The plurality of grooves are provided on the first substrate and depressed from the surface of the first substrate. The spacer is formed on the first substrate and arranged between the first substrate and the second substrate. The spacer includes a main spacer and sub-spacers, the main spacer being higher than the sub-spacers, and the sub-spacers being located inside the grooves.

A display device includes a display region, a peripheral region around the display region, a sealing portion provided in the peripheral region to seal the liquid crystal layer, and a liquid crystal supply portion provided at a part of the sealing portion and interconnecting an outside of the sealing portion and the display region. The liquid crystal supply portion is provided along one side of the peripheral region. The peripheral region includes a first peripheral region located between the display region and the sealing portion. An insulating film is removed in the first peripheral region. In the first peripheral region, a plurality of second spacer members and a plurality of third spacer members to support the plurality of second spacer members are provided.

A display panel and a manufacturing method thereof are provided. The display panel includes a first substrate, a second substrate, and a liquid crystal layer; a carrier of the first substrate includes a plurality of carriers, a spacer layer of the second substrate includes a plurality of spacers, each carrier disposed corresponds to each spacer, wherein the carrier comprises a base and at least one sub-carrier disposed on the base. The present disclosure adopts different thickness of the carriers to form a step difference, thereby relieving surface pressure of the display panel and saving manufacturing cost.

A method for fabricating a liquid crystal phase modulation device is provided. The method includes detecting thicknesses of a plurality of portions of a reference liquid crystal layer of a reference liquid crystal phase modulation sample; determining a distribution according to the thicknesses of the portions of the reference liquid crystal layer; forming a plurality of spacers over a first substrate in the determined distribution; and combining the first substrate with a second substrate and a liquid crystal layer to form the liquid crystal phase modulation device.

An electronic device is provided. The electronic device includes a working region and a non-working region adjacent to the working region. The electronic device includes a first substrate, a first photo spacer, a second photo spacer, and a plurality of third photo spacers. The first photo spacer is disposed on the first substrate in the working region and has a first thickness. The second photo spacer is disposed on the first substrate in the non-working region and has a second thickness. The plurality of third photo spacers are disposed on the first substrate. The first photo spacer is disposed between two of the plurality of third photo spacers. At least one of the plurality of third photo spacers has a third thickness. The first thickness is different from the second thickness, and the third thickness is less than the first thickness.

The present application provides a color filter substrate, an array substrate and a display panel. A first dielectric grating layer in the color filter substrate is stacked with a first dielectric layer, and ridges and grooves are arranged at intervals periodically on one side of the first dielectric grating layer away from the first dielectric layer; a first polarizing layer in the color filter substrate is located in the grooves of the first dielectric grating layer; a second polarizing layer in the color filter substrate is located on the ridges of the first dielectric grating layer.

A display substrate has a display area and an encapsulation area around the display area. The display substrate includes a substrate and a spacer layer. The spacer layer is located on a side of the substrate, and includes a plurality of first columnar spacers located in the encapsulation area and distributed at intervals around the display area, and bottom ends of the plurality of first columnar spacers are fixedly disposed on the substrate. Ends of the plurality of first columnar spacers proximate to the substrate are the bottom ends thereof, and ends of the plurality of first columnar spacers away from the substrate are top ends thereof.

An anti-stress liquid crystal display structure and a manufacturing method are provided. The anti-stress liquid crystal display structure includes a first substrate, a plurality of thin film transistors, a second substrate, a plurality of pillar-shaped supporting elements, and a liquid crystal layer. The plurality of thin film transistors have a protection layer and include at least one first protruding part and at least one first concave part. One end of each of the pillar-shaped supporting elements is connected to the second substrate, and other end of each of the pillar-shaped supporting elements includes at least one second protruding part and at least one second concave part and is disposed on the protection layer of each of the thin film transistors. The liquid crystal layer is disposed between the first substrate and the second substrate.

A liquid crystal display panel is provided. The liquid crystal display panel includes a first substrate disposed opposite to a second substrate. A color resist layer is disposed between the first substrate and the second substrate. A conductive electrode is disposed on the color resist layer. A via hole penetrating the conductive electrode and in contact with the color resist layer is formed on the conductive electrode. A support column is disposed at a position corresponding to the via hole, and a material for preparing the support column includes a molecular sieve.

A display panel and a manufacturing method thereof are provided. The display panel includes a first substrate, a second substrate, and a liquid crystal layer; a carrier of the first substrate includes a plurality of carriers, a spacer layer of the second substrate includes a plurality of spacers, each carrier disposed corresponds to each spacer, wherein the carrier comprises a base and at least one sub-carrier disposed on the base. The present disclosure adopts different thickness of the carriers to form a step difference, thereby relieving surface pressure of the display panel and saving manufacturing cost.