A composition, an alignment layer and a method for preparing the same, a liquid crystal alignment unit and a liquid crystal display panel are provided. The composition comprises a nematic liquid crystal polymerizable monomer and a cholesteric liquid crystal polymerizable monomer. The composition can be used for solving the drawbacks existing in the multi-domain display field, such as complex manufacturing processes, high cost, and difficult to be manufactured. The composition allows controlling the alignment of the molecules in the surface of the coating of the composition through adjusting the amounts of the components in the composition and through adjusting the thickness of the coating. The alignment layer, the liquid crystal alignment unit, and the liquid crystal display panel according to the present invention can be prepared by using a simple process and allow to achieve a multi-domain display at a lower cost.

Provided are a cholesteric liquid crystal composition, and a liquid crystal display panel including the composition, and their preparation methods. The cholesteric liquid crystal composition contains a block copolymer and a cholesteric liquid crystal, wherein the block copolymer has a block A including a chiral group M.sub.1 and a block B including a chiral group M.sub.2, and the cholesteric liquid crystal has at least two different pitches. The display panel includes an array substrate and a counter substrate placed by cell assembly, and a liquid crystal layer disposed between the array substrate and the counter substrate, wherein the liquid crystal layer comprises the cholesteric liquid crystal composition. The liquid crystal layer in the planar texture is capable of reflecting light of at least two wavelengths in the visible light region.

Disclosed are a liquid crystal panel, a display apparatus and a manufacturing method of the liquid crystal panel. The manufacturing method of the liquid crystal panel includes: forming a first alignment layer covering a substrate surface and having an alignment direction along a first direction on a first substrate; the first substrate includes multiple column pixel areas; forming a second alignment layer having an alignment direction along a second direction on the first alignment layer, the first direction and the second direction are different directions, in correspondence with each of the column pixel areas, the second alignment layer has at least one aligning unit that penetrates the column pixel areas, and a width of each of the aligning unit is smaller than a width of the column pixel area.

The present disclosure provides a composition for forming an alignment layer. The composition includes a chiral additive and polymerizable liquid crystal monomers. The composition also includes an initiator for enabling polymerization reactions in the liquid crystal monomers. Further, the polymerizable liquid crystal monomers include at least one of polymerizable cholesteric liquid crystal monomers and polymerizable nematic liquid crystal monomers.

Methods and compositions for detecting a targeted analyte, such as volatile organic compound (VOCs), are disclosed. Specifically, a cholesteric liquid crystal composition comprising a nematic liquid crystal and a chiral dopant transitions to a liquid crystal blue phase or undergoes other optical changes when in contact with a sample containing the analyte. The phase transition can be readily detected with the naked eye. The disclosed methods and compositions may be used in, for example, dosimeters for detecting analyte (e.g., VOC) exposure. Methods and compositions for producing arrays of liquid crystal thin films are also disclosed. The surface between the microwells in a microwell array is coated with a liquid-crystal-phobic material, such as a fluorinated polymer or a fluorinated silane, creating isolated microwell domains that are preferentially wetted by liquid crystal. Liquid crystal can be added to the microwell domains by simple techniques such as spin coating.

Mesogenic media comprising a first component, component A, consisting of bimesogenic compounds optionally a second component, component B, consisting of nematogenic compounds, and optionally a second or third component, component C, consisting of one or more chiral molecules, is suitable for use in flexoelectric liquid crystal devices.

The present invention relates to a composite material, a liquid crystal film, a method for preparing the film, a temperature-responsive device comprising the film, and a circular polarizer made therefrom. The liquid crystal film comprises the composite material of the present invention, wherein the composite material comprises a polymer network of a cholesteric liquid crystal material, and a chiral material capable of hydrogen-bond-assisted self-assembly, and wherein the chiral material is dispersed in and restrained by the polymer network. The obtained liquid crystal film can exhibit a high reflectivity and a high transmittance as well as a broad band reflection. And, the liquid crystal film is applicable for an industrial development because it can be produced with a simple process and at a lower cost, and requires a lower UV luminous intensity.