Optical retardation film
First Claim
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1. An optical retardation film exhibiting a tilted and splayed structure, comprising:
- first and second layers of an anisotropic polymer that are adjacent to each other or adjacent to opposite sides of a common substrate, characterized in that the first and second layers exhibit a tilted structure with an optical symmetry axis having a tilt angle θ
relative to, respectively, the plane of the first or second layer, and the tilt angle θ
in said first or second layer varies continuously in a direction normal to, respectively, the first or second layer, starting from a minimum value θ
min at the side of the layer facing the second layer or vice versa;
or, if present, the common substrate, and ranging to a maximum value θ
max on the opposite side of the first or second layer, or vice versa;
wherein a sense of variation of the tilt angle is clockwise in the first of said layers and counterclockwise in the second of said layers, or vice versa, when going from low tilt values to high tilt values and from a side view perspective; and
wherein a projection of the optical symmetry axis of the first layer into the plane of the first layer and a projection of the optical symmetry axis of the second layer into the plane of the second layer are substantially parallel to each other.
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Abstract
The invention relates to an optical retardation film comprising two layers of an anisotropic polymer adjacent to each other or adjacent to both sides of a substrate, characterized in that each layer exhibits a tilted structure with an optical symmetry axis having a tilt angle θ relative to the plane of the layer, to a means to produce substantially linear polarized light comprising such an optical retardation film and to a liquid crystal display comprising such an optical retardation film.
55 Citations
15 Claims
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1. An optical retardation film exhibiting a tilted and splayed structure, comprising:
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first and second layers of an anisotropic polymer that are adjacent to each other or adjacent to opposite sides of a common substrate, characterized in that the first and second layers exhibit a tilted structure with an optical symmetry axis having a tilt angle θ
relative to, respectively, the plane of the first or second layer, and the tilt angle θ
in said first or second layer varies continuously in a direction normal to, respectively, the first or second layer, starting from a minimum value θ
min at the side of the layer facing the second layer or vice versa;
or, if present, the common substrate, and ranging to a maximum value θ
max on the opposite side of the first or second layer, or vice versa;
wherein a sense of variation of the tilt angle is clockwise in the first of said layers and counterclockwise in the second of said layers, or vice versa, when going from low tilt values to high tilt values and from a side view perspective; and
wherein a projection of the optical symmetry axis of the first layer into the plane of the first layer and a projection of the optical symmetry axis of the second layer into the plane of the second layer are substantially parallel to each other. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
A) coating a mixture comprising a) a polymerizable mesogenic material comprising at least one polymerizable mesogen having at least one polymerizable functional group, b) an initiator, and c) optionally a solvent on a substrate or between a first and a second substrate in form of a layer, B) aligning the polymerizable mesogenic material in the coated layer into a tilted and optionally a splayed structure, C) polymerizing said mixture of a polymerizable mesogenic material by exposure to heat or actinic radiation, D) optionally removing the substrate or, if two substrates are present, one or two of the substrates from the polymerized material, and E) repeating the steps A), B), C) and optionally step D) at least one more time. -
6. An optical retardation film obtainable according to claim 5, characterized in that the steps A), B) and C) are carried out on both sides of a common substrate.
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7. An optical retardation film obtainable according to claim 5, characterized in that the mixture of the polymerizable mesogenic material comprises at least one polymerizable mesogen having one polymerizable functional group and at least one polymerizable mesogen having two or more polymerizable functional groups.
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8. An optical retardation film according to claim 5, characterized in that the polymerizable mesogens are compounds of formula I
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9. An apparatus to produce substantially linear polarized light, comprising a broadband circular reflective polarizer and an optical retardation film according to claim 1.
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10. A liquid crystal display comprising a display cell and the apparatus to produce substantially linear polarized light according to claim 9.
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11. A liquid crystal display comprising a display cell and an optical retardation film according to claim 1.
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12. An optical retardation film according to claim 1, wherein said minimum tilt angle θ
- min is from 0 to 10 degrees.
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13. An optical retardation film according to claim 1, wherein said maximum tilt angle θ
- max is from 30 to 90 degrees.
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14. An optical retardation film according to claim 1, wherein the two layers show mirror symmetry, with the interface or, if present, the substrate between the layers being a mirror plane.
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15. An optical retardation film according to claim 1 wherein the optical retardation film is a quarter wave retardation film.
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Specification