IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0305985
(2002-11-29)
|
우선권정보 |
JP-0338071 (2002-11-21); JP-0369208 (2001-12-03) |
발명자
/ 주소 |
- Yamada, Shuhei
- Tsuchiya, Yutaka
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
3 |
초록
▼
The invention provides an alignment film that is provided with a high alignment control force to a target molecule and less likely to cause problems to an element during the formation of the alignment film. An alignment film has a configuration in which, on a first alignment layer, a second alignmen
The invention provides an alignment film that is provided with a high alignment control force to a target molecule and less likely to cause problems to an element during the formation of the alignment film. An alignment film has a configuration in which, on a first alignment layer, a second alignment film layer that is uniform in the in-plane anisotropy more than the first alignment film thereof and aligned along surface alignment of the first alignment film. The first alignment film layer can be formed of, for instance, a polyimide film whose rubbing density is 200 or less, and the second alignment film layer can be formed by use of an ion deposition method with an acryl monomers as a deposition material. A liquid crystal device provided with the alignment film like this becomes higher in the alignment control force to a liquid crystal.
대표청구항
▼
1. An alignment film comprising:a first alignment film; and a second alignment film formed on a surface of the first alignment film that is capable of controlling alignment of target molecules, the first alignment film having in-plane anisotropy in a film surface direction and being relatively non-u
1. An alignment film comprising:a first alignment film; and a second alignment film formed on a surface of the first alignment film that is capable of controlling alignment of target molecules, the first alignment film having in-plane anisotropy in a film surface direction and being relatively non-uniform in a direction of the anisotropy compared to the second alignment film, the second alignment film having in-plane anisotropy in a film surface direction, being relatively uniform in a direction of the anisotropy, more so than the first alignment film, and substantially controlling the alignment of the target molecules. 2. The alignment film as set forth in claim 1, the first alignment film being a polyimide alignment film that is formed mainly of polyimide and having a rubbing density of 200 or less.3. The alignment film as set forth in claim 1, the first alignment film being a polyimide alignment film that is mainly made of polyimide and in which the anisotropy is given by irradiating UV light.4. The alignment film as set forth in claim 1, the first alignment film is a polyimide alignment film that is mainly made of polyimide and in which the anisotropy is given by ion beam irradiation.5. The alignment film as set forth in claim 1, the first alignment film a photosensitive polymer alignment film that is mainly made of a photosensitive polymer material and in which the anisotropy is given by UV light irradiation.6. The alignment film as set forth in claim 1, the first alignment film being an oblique deposition film mainly made of silicon oxide.7. The alignment film as set forth in claim 1, the first alignment film being a thin inorganic alignment film whose anisotropy is given by ion beam irradiation.8. The alignment film as set forth in claim 1, the first alignment film being a thin inorganic alignment film whose anisotropy is given by directional sputtering.9. The alignment film as set forth in claim 1, the first alignment film being mainly made of diamond-like carbon.10. The alignment film as set forth in claim 1, the second alignment film being an organic deposition film that is deposited on the first alignment film by a technique of a deposition method.11. The alignment film as set forth in claim 1, the second alignment film being mainly made of a crystalline fluorine containing polymer.12. The alignment film as set forth in claim 1, the second alignment film is mainly made of polyolefin.13. The alignment film as set forth in claim 1, the second alignment film being mainly made of polymers that are derived from liquid crystalline monomers by polymerizing the liquid crystalline monomers.14. The alignment film as set forth in claim 13, the liquid crystalline monomer being mainly made of one or a plurality of kinds of compounds expressed by any one of the following general formulas (1), (2) and (3),[Chemical formula 1]CH2?CHC00?X1?Y??(1) In the formula, X1 denotes any one of Y1 denotes a group expressed with an alkyle group and a general formula COOR (R denotes an alkyl group), and a group in which at least one hydrogen atom of a benzene ring is substituted with a halogen atom), [Chemical formula 2]In the formula (2), X2 denotes or one in which at least one hydrogen atom of at least one benzene ring that constitutes these is substituted with a halogen atom. Y2 denotes any one of a hydrogen atom, a methyl group, a cyano group, and a group that is expressed with general formulas R and OR (R denotes an alkyl group)),[Chemical formula 3]In the formula (3), X3 denotes or one in which at least one hydrogen atom of at least one benzene ring that constitutes these is substituted with a halogen atom or a methyl group).15. The alignment film as set forth in claim 1, the second alignment film being mainly made of polyalkylacrylates or polyalkylmethacrylates.16. A method of fabricating an alignment film, comprising:forming a first alignment film; and forming a second alignment film on a surface of the first alignment film that is capable of controlling alignment of target molecules, the first alignment film having in-plane anisotropy in a film surface direction and being relatively non-uniform in a direction of the anisotropy compared to the second alignment film, the second alignment film having in-plane anisotropy in a film surface direction being relatively uniform in a direction of the anisotropy, more so than the first alignment film, and substantially controlling the alignment of the target molecules, the second alignment film being formed by a technique of a deposition method with an organic material. 17. A method of fabricating an alignment film as set forth in claim 16:wherein in the forming the second alignment film, the second alignment film is formed by a technique of an ion deposition method with liquid crystalline monomers as the organic material. 18. A liquid crystal device having a configuration in which a liquid crystal layer is interposed between two substrates disposed apposite to each other, comprising:an alignment film disposed on an outermost surface on the liquid crystal layer side of at least one substrate, the alignment film comprising: a first alignment film; and a second alignment film formed on a surface of the first alignment film that is capable of controlling alignment of target molecules, the first alignment film having in-plane anisotropy in a film surface direction and being relatively non-uniform in a direction of the anisotropy compared to the second alignment film, the second alignment film having in-plane anisotropy in a film surface direction, being relatively uniform in a direction of the anisotropy, more so than the first alignment film, and substantially controlling the alignment of the target molecules. 19. A projection type display device, comprising:a light source; a light modulation device comprised of the liquid crystal device that is set forth in claim 18 and modulates light from the light source; and a projection device that projects the light modulated by the light modulation device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.