Abstract: There is provided a light emitter for a display comprising a photoalignment layer; and photoaligned on said photoalignment layer, a light emitting polymer. Also provided are methods for forming the light emitter and the use of the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: A polymerizable mixture of an alignable photoluminescent reactive mesogen and a sensitizer may be polymerized to form an aligned photoluminescent film. The polymerization may be achieved through photopolymerization which also allows for photopatterning.

Abstract: A photoelectric cell comprising first and second electrodes, a plurality of nanowires which extend between the electrodes, an a structure disposed between the nanowires.

Abstract: A composition capable of emitting circularly polarised light comprises a medium including a chiral, helical liquid crystalline phase with a substantially fixed, temperature independent helical pitch. The liquid crystalline phase is comprised of calamatic liquid crystal molecules having a luminescent moiety and the composition is such that excitation of the luminescent moiety causes the medium to emit light in the bandwidth of selective reflection of the liquid crystalline phase. To achieve the substantially temperature independent helical pitch, the chiral helical liquid crystalline phase may be in the form of a glass or a polymerised network. The composition may be used to produce a light emitting device, e.g. and OLED.

Abstract: The invention relates to liquid crystalline emitter and charge-transport materials for use in organic light emitting devices. These materials may be used as uncrosslinked liquid crystalline glasses or crosslinked as insoluble polymer matrices. The polymer may be formed by photopolymerization. The polymerization may be done without a photoinitiator. The polymer may have a room temperature nematic phase that may be stabilized the nematic phase relative to smectic phases. The polymer may be easily photocrosslinked with a high final degree of polymerization. The layers of crosslinked layers organic semiconductor may be incorporated into electronic devices. The materials have a high luminous output. Exemplary light emitting polymer may be formed by the polymerization of a reactive mesogen having the formula: B1—S1-T1-(F-T2)p-F-T3-S2—B2, wherein B1 and B2 are polymerizable end groups, F is a fluorene functional unit, S1 and S2 are spacer units, and T1, T2, and T3 are thienothiophenes units.

Abstract: The invention relates to liquid crystalline emitter and charge-transport materials for use in organic light emitting devices. These materials may be used as uncrosslinked liquid crystalline glasses or crosslinked as insoluble polymer matrices. The polymer may be formed by photopolymerization. The polymerization may be done without a photoinitiator. The polymer may have a room temperature nematic phase that may be stabilized the nematic phase relative to smectic phases. The polymer may be easily photocrosslinked with a high final degree of polymerization. The layers of crosslinked layers organic semiconductor may be incorporated into electronic devices. The materials have a high luminous output.

Abstract: The present invention relates to charge transporting or light emitting polymerizable materials having photocrosslinkable dienes. These materials may be polymerized to form charge-transport or light emission layers. The diene substituted materials include small molecules, oligomers, and polymers that are either of liquid crystalline or non-liquid crystalline nature. The present invention also provides materials formed from polymerizing the charge transport or light emitting polymerizable materials, processes of forming the polymers, and devices using the polymers.

Abstract: There is provided a process for forming a light emitting polymer comprising photopolymerization of a reactive mesogen having an endgroup which is susceptible to photopolymerization e.g. by a radical polymerization process. Also provided are methods for using the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: There is provided a process for forming a light emitting polymer comprising photopolymerization of a reactive mesogen having an endgroup which is susceptible to photopolymerization e.g. by a radical polymerization process. Also provided are methods for using the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: There is provided a light emitter for a display comprising a photoalignment layer; and photoaligned on said photoalignment layer, a light emitting polymer. Also provided are methods for forming the light emitter and the use of the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: A method of forming a layer including mixing at least a first material and a second material to form a mixture, depositing the mixture on a surface, and polymerizing the mixture to form a polymer network. The polymer network being at least one of charge-transporting or luminescent has improved properties as compared to the first and second materials including the rate of polymerization, the power level, time, and/or amount of energy per unit of mass used for polymerizing. The polymer network may be formed on an alignment layer that is unrubbed such as a photoalignment layer. The polymer network may be fabricated with uniform structure and thickness. The polymer network may have a liquid crystal phase and includes few dangling radicals and molecular fragments.

Abstract: There is provided a process for forming a light emitting polymer comprising photopolymerization of a reactive mesogen having an endgroup which is susceptible to photopolymerization e.g. by a radical polymerization process. Also provided are methods for using the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: There is provided a process for forming a light emitting polymer comprising photopolymerization of a reactive mesogen having an endgroup which is susceptible to photopolymerization e.g. by a radical polymerization process. Also provided are methods for using the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: There is provided a light emitter for a display comprising a photoalignment layer; and photoaligned on said photoalignment layer, a light emitting polymer. Also provided are methods for forming the light emitter and the use of the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: Compounds of formula (I) may be used as alignment layers in liquid crystal devices wherein X1-5 are idependently selected from H, F, CN, phenylene, C1-10 alkyl, whereby when X1=X2, then X1,2=H and when X3=X4, then X3,4=H, S1-3 are spacer units, PG1-3 are photoisomerisable/dimerisable groups.

Abstract: There is provided a process for forming a light emitting polymer comprising photopolymerization of a reactive mesogen having an endgroup which is susceptible to photopolymerization e.g. by a radical polymerization process. Also provided are methods for using the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: There is provided a liquid crystal alignment layer comprising an alignment layer; and chemically bound to said alignment layer, a transport material. Also provided are methods for forming the liquid crystal alignment layer and the use thereof in displays for electronic apparatus.

Abstract: There is provided a light emitter for a display comprising a photoalignment layer; and photoaligned on said photoalignment layer, a light emitting polymer. Also provided are methods for forming the light emitter and the use of the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: A light emitter for a display consisting of a photoalignment layer. A light emitting polymer is photoaligned on the photoalignment layer. Also, methods for forming the light emitter and use of the light emitter in displays, backlights, electronic apparatus and security viewers.

Abstract: A liquid crystal alignment layer that consists of an alignment layer and a transport material chemically bound to the alignment layer. Also, methods for forming the liquid crystal alignment layer, and displays for electronic apparatus incorporating the liquid crystal alignment layer.