The invention provides a method for manufacturing an liquid crystal device to avoid sedimentation problem of spacers and provide a liquid crystal device with better optical properties, comprising the steps of: providing a first substrate; coating an aligning solution on the first substrate, wherein the aligning solution comprises a liquid crystal alignment treatment agent, a solvent and a plurality of spacers; curing the aligning solution to form a first alignment layer; coating a liquid crystal solution on the first alignment layer to form a liquid crystal layer; providing a second substrate; and adhering the second substrate to the first substrate.

The present invention provides a display panel and a method for manufacturing the same. The method comprises steps of forming a black matrix and forming a sealant, wherein the black matrix layer contains a thermochromic material at the position corresponding to the sealant, so that when the sealant is cured with ultraviolet light, the thermochromic material layer is transparent. In such case, a side of the first substrate away from the sealant can be irradiated and ultraviolet light passes through the first substrate and the thermochromic material to cure the sealant, thus achieving a uniform irradiation of ultraviolet light and a high curing efficiency. After the sealant is cured, the thermochromic material can become black by changing the temperature thereof so as to avoid the light leakage.

A sealant (9), a method for producing bezel-less liquid crystal display, and a bezel-less liquid crystal display produced by the same. The sealant (9) comprises: an azopyridine derivative represented by the structural formula (1); one or more of polyvinyl alcohol and ethylene-vinyl acetate copolymer; and a solvent, wherein m in the structural formula (1) is an integer of 8-20; and a mass ratio of the azopyridine derivative to the one or more of polyvinyl alcohol and ethylene-vinyl acetate copolymer is 1/99-15/85. A color filter substrate (6) and an array substrate (7) of a liquid crystal display are bound under the irradiation of ultraviolet light by using the photothermal effect and the binding property of a mixture of an azopyridine derivative and one or more of polyvinyl alcohol and ethylene-vinyl acetate copolymer, while the bezel of the liquid crystal display panel is not occupied, so as to obtain a bezel-less liquid crystal display.

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A display device includes a support frame having an accommodation space, a display module in the accommodation space, a window on the display module, and having a transmissive area and a non-transmissive area, a light-blocking layer at the non-transmissive area of the window, and an adhesive member between the light-blocking layer and the support frame, and including an adhesive polymer matrix, a ruptured shell structure, and an exothermic curing agent, wherein the window is attached to the support frame by the adhesive member.

The present disclosure relates to an adhesive, a display device and a production method for the adhesive. The adhesive comprises an adhesive substrate, wherein the adhesive further comprises a capsule, which capsule comprising a restoration agent and a capsule wall surrounding the restoration agent.

The present disclosure provides a method for manufacturing a display substrate, a display substrate, and a display device. The method for manufacturing a display substrate comprises: providing a container, which is positioned horizontally and which contains a curable liquid, and the bottom of which is flat; immersing a side of the substrate parallel to the bottom of the container in the horizontal direction into the curable liquid; and performing curing treatment of the curable liquid until the curable liquid is solidified on the side of the substrate to form a film layer.

Disclosed are a multi-domain liquid crystal display panel comprising an upper substrate and a lower substrate, wherein at least one of the substrates includes a glass substrate, a conventional alignment layer coated on the surface of the glass substrate, and a polymer alignment layer having a different alignment direction from that of the conventional alignment layer and a method for preparing the same. In the present invention, a smectic/cholesteric liquid crystal polymer is formed from the mixture of liquid crystal polymerizable monomers having smectic phase (Sm)-cholesteric phase (N*) transition, and multiple liquid crystal alignments in a single pixel are formed by adjusting the polymerization temperature, the thickness of the polymer layer, and the amount of the smectic liquid crystal polymerizable monomer, thereby realizing a multi-domain display by the subsequent masking treatment and ultraviolet irradiation. The method for preparing the same is simple, novel, low-cost, and easy to achieve.

A method for forming a display device includes forming a liquid crystal layer between a first substrate and a second substrate spaced apart from the first substrate, in which the liquid crystal layer includes a liquid crystal composition including a reactive mesogen, applying an electric field to the liquid crystal layer, firstly curing the liquid crystal layer at a temperature from about 20 C. to about 60 C., and secondly curing the liquid crystal layer without applying the electric field. The liquid crystal composition includes the reactive mesogen in an amount exceeding 0 percent by weight and equal to or smaller than about 30 percent by weight relative to a total weight of the liquid crystal composition.

A laminate, including a substrate having a microstructure on a surface thereof; and a coating layer formed on the substrate and encapsulating the microstructure of the substrate. A glass transition temperature T.sub.1 of the substrate is higher than a glass transition temperature T.sub.2 of the coating layer. A method of producing an ophthalmic lens, including deforming the laminate into a shape of the ophthalmic lens by applying heat and/or pressure at a temperature of lower than T.sub.1.