RU2002102943A - A method of forming an anisotropic crystalline film on a substrate by transferring from a carrier plate, a carrier plate of an anisotropic crystalline film and a method for its manufacture - Google Patents

Claims (27)

1. A method of forming an anisotropic crystalline film on a substrate by transferring from a carrier plate, comprising bringing the substrate into contact with an anisotropic crystalline film of a carrier plate or other layers of a carrier plate, if placed on top of the crystalline film; activating at least a portion of the crystalline film to be transferred and / or at least a portion of the carrier plate and / or at least a portion of at least one of the layers of the carrier plate; and / or at least part of the substrate, and the degree of activation should be sufficient to ensure subsequent transfer of the film upon application of pressure, and insufficient to disrupt the crystal structure of the transferred crystalline film; simultaneous with activation and / or subsequent application of pressure, at least at the locations of the part of the crystalline film to be transferred to the substrate, to the carrier plate and / or substrate, and / or at least to one of the layers of the carrier plate, when this pressure should be sufficient to transfer at least part of the film from the carrier plate to the substrate and insufficient to disrupt the crystal structure of the transferred crystalline film. 2. The method according to claim 1, characterized in that the activation and applied pressure modes are selected from the condition that the contrast with constant transmission and / or birefringence of the anisotropic crystalline film after transfer varies by no more than 10%. 3. The method according to any one of claims 1 and 2, characterized in that they use a crystalline anisotropic film obtained from a liquid crystal of at least one organic substance that forms the lyotropic phase by applying a liquid crystal to the substrate using an external orienting effect. 4. The method according to any one of claims 1 to 3, characterized in that the carrier plate according to any one of claims 10 to 22 is used as the carrier plate. 5. The method according to any one of claims 1 to 4, characterized in that the activation is carried out by thermal and / or electromagnetic, and / or other effects on the plate of the carrier and / or substrate, leading to a decrease in the strength of the material of at least one of layers of the carrier plate and / or reducing adhesion between at least two layers of the carrier plate and / or increasing adhesion of the upper layer of the carrier plate to the substrate. 6. The method according to any one of claims 1 to 5, characterized in that activate part of the carrier plate or part of at least one of the layers of the carrier plate at the locations of the portion of the crystalline film to be transferred, and pressure is applied at the locations of the portion of the crystalline film to be transferred, or to the entire surface of the carrier plate and / or substrate. 7. The method according to any one of claims 1 to 5, characterized in that the entire carrier plate is activated or at least one of the layers of the carrier plate and pressure is applied at the locations of the portion of the crystalline film to be transferred. 8. The method according to any one of claims 1 to 5, 7, characterized in that the activation is carried out before bringing the substrate into contact with the carrier plate in the manufacturing process of the carrier plate. 9. The method according to claim 8, characterized in that the configuration of the anisotropic crystalline film necessary for transfer is formed previously in the manufacture of a carrier plate or on a finished carrier plate before bringing it into contact with the substrate. 10. A carrier plate containing a base, and at least one crystalline anisotropic film formed or deposited from at least one organic substance capable of forming a liquid crystal, and whose molecules or fragments of molecules have a flat structure. 11. The carrier plate of claim 10, wherein the crystalline anisotropic film is a film crystal, the substance of which contains aromatic rings and has a Bragg reflection of 3.4 ± 0.2 A along one of the optical axes. 12. A carrier plate according to any one of claims 10 to 11, characterized in that at least one organic dye having at least one ionogenic group in the structural formula is used as an organic substance to produce a liquid crystal. its solubility in polar solvents to form a lyotropic liquid crystalline phase, and / or at least one nonionic group, ensuring its solubility in polar or non-polar solvents to form a liquid crystalline phase, and / whether at least one counter-ion, which in the process of forming an optically anisotropic film either remain in the structure of the molecule or not. 13. The carrier plate according to claim 12, characterized in that at least one organic dye of the formula {K} (M) _{n is} used as an organic dye, where K is a dye whose chemical formula contains an ionic group or groups, identical or different, which ensures its solubility in polar solvents to form a lyotropic liquid crystal phase, M is a counterion, n is the number of counterions in a dye molecule, including a fractional one, provided that one counterion belongs to several moles kulam, and in the case of n> 1 counterions can be different. 14. A carrier plate according to any one of claims 10 to 13, characterized in that the crystalline film is a polarizing film or a phase-holding film, or an orientation film, or a protective film, or a film that simultaneously functions as any combination of at least two of these films, at least part of the thickness of the crystalline film and / or at least one spectral region and / or at least part of the crystalline film area. 15. A carrier plate according to any one of claims 10-14, characterized in that the anisotropic crystalline film consists of at least two fragments whose optical axes are rotated relative to each other at an angle from 0 to 90 °. 16. The carrier plate according to any one of paragraphs.10-15, characterized in that an adhesive layer is additionally applied on top of the remaining layers. 17. A carrier plate according to any one of the preceding claims 10-16, characterized in that a light-absorbing substance is introduced into the composition of the base material and / or the adhesive layer and / or the crystalline film. 18. The carrier plate according to any one of paragraphs.10-17, characterized in that the base is made of a polymeric material or glass, or a semiconductor material, or metal and has a flat, convex, or concave surface shape. 19. A carrier plate according to any one of claims 10-18, characterized in that at least one modifying additive is introduced into the composition of the anisotropic crystalline film, which facilitates the transfer of individual regions of the film. 20. The carrier plate according to claim 19, characterized in that glycerol is used as a modifying additive, which is introduced into the composition of the material of the crystalline film in an amount not exceeding 0.1% by weight. 21. The carrier plate according to any one of the preceding paragraphs.10-20, characterized in that the anisotropic crystalline film is deposited or formed in the form of at least one image area necessary for subsequent transfer. 22. The carrier plate according to claim 11, characterized in that the surface of the base is modified to impart hydrophobic properties, a sublayer of an optically transparent polymer with a hydrophilic surface is deposited or formed on the plate, an anisotropic crystalline film is formed or deposited in the form of at least at least one area of the image necessary for subsequent transfer on top of which at least one adhesive layer is applied. 23. A carrier plate according to any one of the preceding claims 10 to 22, characterized in that at least a portion of the anisotropic crystalline film is deposited or formed in the form of regions of different colors. 24. A method of manufacturing a carrier plate according to any one of claims 10-23, comprising modifying the surface of the base to give it hydrophobic properties, applying a sublayer of an optically transparent polymer to the modified surface, the surface of which has hydrophilic properties, applying or forming an anisotropic crystalline film in the form of at least one region of the image necessary for subsequent transfer, and applying on top of the remaining layers of at least one adhesive layer. 25. A method of manufacturing a carrier plate according to paragraph 24, wherein the deposited or formed anisotropic crystalline film is treated with ions of 2 or 3 valence metals to transfer it into a water-insoluble phase. 26. A method of manufacturing a carrier plate according to paragraph 24 or 25, characterized in that the anisotropic crystalline film in the form of at least one image region necessary for subsequent transfer is formed by explosive photolithography. 27. A method of manufacturing a carrier plate according to any one of paragraphs.24-26, characterized in that the anisotropic crystalline film is formed in the form of areas that differ in color, by mask etching or photolithography.