Abstract: This invention concerns positive-working photodefinable polyimide precursors which make use of chemical amplification based on photoacid catalyzed cleavage of acid labile-poly(amic acetal esters).

Abstract: A method of manufacturing a luminescent screen assembly on an interior surface of a faceplate panel 12 for a color CRT 10 includes the steps of uniformly applying a solution of a material to form an organic conductive (OC) layer and overcoating the OC layer with a solution to form an organic photoconductive (OPC) layer, on the interior surface of the faceplate panel. The OPC layer 34 is conditioned by directing a stream of dry gas thereon to warm the OPC layer to a preheat temperature, while maintaining the panel at a panel temperature less than the preheat temperature. The OPC layer is exposed to IR radiation to rapidly increase the temperature of the OPC layer to a curing temperature, greater than the preheat temperature, to remove some of the volatilizable constituents from the OPC layer, without substantially increasing the temperature of the panel.

Abstract: An excellent electrophotographic lithographic printing plate precursor capable of exhibiting a stable electrophotographic sensitivity and toner fogging density as well as less occurrence of background stains during printing can be produced in effective manner. The feature consists in a process for the production of an electrophotographic lithographic printing plate precursor having at least a photoconductive layer on a support, comprising coating a composition for a photoconductive layer comprising, as predominant components, a photoconductive material and a resin binder onto the support and then drying it by a drying air whose humidity is controlled to provide an absolute humidity of 5 to 70 g/kg . dried air.

Abstract: A method of restoring a used organic photoreceptor which includes a supporting substrate having a photoconductor layer contained on said substrate and an overlaying layer of charge transport material. The photoreceptor is heated to a temperature near or above the glass transition temperature of the charge transport layer for a time sufficient to allow for flowing and/or melting of the top surface of the charge transport layer, and then cooled to room temperature, followed by applying a new layer of charge transport material over the existing charge transport layer.

Abstract: A method for making a photographic composition gel ready for use in production from a good preservative frozen state, causing no change in photographic properties, wherein a photographic composition gel is melted to a sol by placing a light shielding dielectric preservative container holding lumps of a photographic composition gel in a dielectric heating apparatus which generates high frequencies capable of penetrating to a depth corresponding to the size of the above photographic composition gel lumps, and melting the photographic composition gel to a sol by irradiating the lumps of gel with the above high frequencies from the outside of the container.

Abstract: A migration imaging system using a laser-addressable thermoplastic imaging member 10. The imaging member 10 comprises a supporting section 15 and a thermoplastic imaging surface layer 14. A charged, uniform layer of marking particles 24 is deposited on the imaging surface layer 14. An imagewise-modulated laser beam 24 transforms selected volumes of the imaging surface layer 14 in an imagewise pattern to a permeable state. Charged marking particles 42 that overlay a transformed volume then migrate into the imaging surface layer 14, due to an electrostatic attraction to the imaging member 10, so as to be retained. Unaddressed marking particles 56 are cleaned away by particle removing device 20B comprised of a magnetic brush utilizing hard magnetic carrier particles. The imaging member 10, or solely the imaging surface layer 14, may be transferred and bonded to a receiver member such as a drum for use as an exposure mask in a xeroprinting process, or to a receiver sheet 64 to provide a hard copy reproduction.

Abstract: A layered imaging member comprised of a photogenerating layer of titanyl phthalocyanine prepared by depositing amorphous titanyl phthalocyanine on a substrate maintained at a temperature of from below 25.degree. to about minus 30.degree. C.; and contacting the substrate product with an aliphatic alcohol.

Abstract: A process for the preparation of layered photoconductive imaging members which comprises forming layers comprised of a mixture of cyclic oligomers with degrees of polymerization of from about 2 to about 20 and a catalyst, wherein one layer contains a conductive filler, the second layer contains a photogenerating pigment and the third layer contains charge transporting molecules, and heating said layers to convert the cyclic oligomer mixture in each layer to a polycarbonate resin.

Abstract: A process for the preparation of supporting substrates which comprises heating a mixture of cyclic oligomers with degrees of polymerization of from about 2 to about 20 and a catalyst.

Abstract: A process for the preparation of photoconductive imaging members which comprises coating a supporting substrate with a photogenerator layer comprised of photogenerating pigments, and subsequently applying to the photogenerating layer a mixture comprised of charge transport molecules and cyclic oligomers, and wherein said mixture is heated to obtain polycarbonate resin binder from said cyclic oligomers.

Abstract: A process for the preparation of photoconductive imaging members which comprises coating a supporting substrate with a photogenerator layer comprised of photogenerating pigments and a mixture of cyclic oligomers wherein said mixture is heated to obtain a polycarbonate resin binder, and subsequently applying to the photogenerating layer a layer of charge transport molecules.

Abstract: A process for preparing a photoreceptor by forming a coating of a substrate followed by curing. The coating contains an electroactive material dissolved or dispersed in a polymerizable film forming monomer, which is first polymerized into a solid matrix.

Abstract: An electrophotographic element comprises a single aggregate photoconductive layer which contains a continuous phase that has a high glass transition temperature T.sub.g, of at least about 110.degree. C. The required high glass transition temperatures can be obtained by using compositions for the aggregate photoconductive layer that contain organic charge transport agents with high glass transition temperatures or polymer binders with high glass transition temperatures, or combinations of both. In a preferred embodiment an aggregating bisphenol A polycarbonate is used in combination with a cobinder polymer that has a high glass transition temperature. The electrophotographic element of the invention can be dried at temperatures of at least about 100.degree. C., and preferably from about 110.degree. C. to about 145.degree. C., to eliminate the solvent used in coating.

Abstract: The present invention provides an organic device comprising a substrate having a polymerized monomolecular or built-up multi-monomolecular film, a first electrode, a second electrode with said film intervening between the electrodes, a third electrode connected directly or indirectly to the monomolecular or built-up multi-monomolecular film, which device is operated by applying a voltage between the third electrode and the second electrode to control an electric current flowing between the first electrode and the second electrode through said polymerized monomolecular or built-up multi-monomolecular film between the electrodes. If the polymerization of the monomolecular film is eliminated, the device can be imparted with learning functions because the polymerization of the film proceeds depending upon an amount of electricity flowing during the use of the device.

Abstract: A process of preparing electrophotographic photoreceptor aluminum drums having coated layers with a constant thickness and properties is disclosed. After a carrier generation layer being dip coated, a process of conveyance is followed at a temperature same as that of the coating material.

Abstract: A process for fabricating an electrostatographic imaging member including providing a flexible substrate comprising a solid thermoplastic polymer, forming an imaging layer coating including a film forming polymer on the substrate, heating the coating and substrate, cooling the coating and substrate, and applying sufficient predetermined biaxial tensions to the substrate while the imaging layer coating and substrate are at a temperature greater than the glass transition temperature of the imaging layer coating to substantially compensate for all dimensional thermal contraction mismatches between the substrate and the imaging layer coating during cooling of the imaging layer coating and the substrate, removing application of the biaxial tension to the substrate, and cooling the substrate whereby the final hardened and cooled imaging layer coating and substrate are substantially free of internal stress and strain.

Abstract: Optical waveguides for use in planar structures, such as dielectric layers in multichip modules exhibit low optical loss. The optical waveguides are provided by methods that involve doping of the dielectric layers. The waveguides can be used to interconnect electronic elements and transmit signals at speeds that are compatible with high speed electronic elements.

Abstract: An optical waveguide array includes a two-dimensionally refractive index profile lens for focusing light beams in a scanning direction. The two-dimensionally refractive index profile lens is bonded to or integrally formed with the optical waveguide array. The refractive index is distributed in the two-dimensionally refractive index profile lens by changing the irradiation energy of ultraviolet ray during the manufacture. As a member for focusing the light beams in the irradiation direction which is perpendicular to the scanning direction, another two-dimensionally refractive index profile lens or a cylindrical lens is used. The optical waveguide array with such an inexpensive structure can focus the light beams both in the scanning direction and the irradiation direction. The resolution of the latent image formed on a photosensitive member can thus be improved.

Abstract: The electrophotosensitive material in accordance with the present invention containing a layer which contains polycarbonate as a binding resin and of which glass transition temperature is not lower than 62.degree. C. This layer is excellent in adhesion to the foundation. This layer may be a photosensitive layer containing a m-phenylenediamine compound as a charge transferring material, or a photosensitive layer containing a m-phenylenediamine compound and a perylene compound as a charge generating material. The present invention also provides a photosensitive layer of which the amount of residual tetrahydrofuran is adjusted to a predetermined value or less, thereby to prevent the photosensitive layer from being decreased in sensitivity due to ultraviolet rays or visible ray.

Abstract: Materials and a process for producing the materials are useful in electrophotographic imaging members. The materials are produced through a sol-gel process wherein a hybrid material, which may be obtained through hydrolysis and condensation, includes an inorganic glassy network, a flexible organic subunit and a functional subunit. The latter two subunits may be unitary. The materials can be easily coated for fabricating electrophotographic imaging members and the like.

Abstract: An improved photosensitive member for electrophotography which comprises an intermediate layer, a photoconductive layer and a surface protecting layer each formed upwardly in this order on a conductive substrate, the photoconductive layer comprising a non-doped a-Si layer made of a amorphous silicon containing hydrogen and/or halogen of 40 at. % or more.

Abstract: In an electrophotographic imaging member having a supporting substrate and a charge generating layer, the supporting substrate is made of a material having a thermal contraction coefficient which is substantially the same as that of the charge generating layer. Substrate materials having a thermal contraction coefficient between about 5.0.times.10.sup.-5 /.degree.C. and about 9.0.times.10.sup.-5 /.degree.C. are preferred for use in combination with a benzimidazole perylene charge generating layer.

Abstract: A photosensitive member for electrophotography which comprises a conductive substrate and a photoconductive layer which is composed of an amorphous silicon layer and an amorphous silicon germanium layer containing a specific amount of hydrogen and/or halogen respectively, and being prepared by electron cyclotron resonance method respectively, which is useful for xerographic systems.

Abstract: An electrophotographic member comprising a support, a photoconductive layer formed thereon, and a surface layer formed thereon, said surface layer including or attaching a lubricating agent having a perfluoropolyoxyalkyl or perfluoropolyoxyalkylene group to form an organic surface protective lubricating layer, and a fixing group to be fixed to the surface layer, is excellent in moisture resistance, wear resistance and cleaning properties and thus useful in an electrophotographic apparatus with a long life and high reliability.

Abstract: A photosensitive member for electrophotography comprising a photoconductive layer formed on an electro- conductive support, in which the photoconductive layer is composed of an amorphous silicon germanium layer formed by electron cyclotron resonance (ECR) method and containing hydrogen and/or halogen in an amount of more than 40 at. % to 65 at. % and an amorphous silicon nitride layer formed by ECR method and containing hydrogen and/or halogen in an amount of more than 40 at. % to 60 at. %, the amorphous silicon nitride layer being laminated on the amorphous silicon germanium layer; said member exhibiting an increased sensitivity to laser rays having a long wavelength and an improved charge retention capacity.

Abstract: A multicolor recording material is disclosed, which comprises a support having provided thereon a coating layer comprising two or more kinds of microcapsules each containing at least a leuco dye capable of being colored by oxidation and a photo oxidizing agent outside said microcapsules, and a reducing agent as necessary components, with two or more leuco dyes capable of forming different colors from each other being retained in different kinds of said microcapusles respectively composed of walls of high polymers having different glass transition points.

Abstract: An image forming method includes the steps of forming an electrostatic latent image on an image-carrying body, developing the electrostatic latent image using a developing agent, and transferring the developed image. A compound which reacts with nitrate ions causing an image flow and forms a water-insoluble substance is added on the surface of the image-carrying body, and then a cleaning is performed on the surface of the image-carrying body. The water-insoluble substance is removed from the surface of the image-carrying body, and therefore the image flow is prevented.

Abstract: A photosensitive member for electrophotography which comprises a conductive substrate and a photoconductive layer, the photoconductive layer being an amorphous silicon germanium containing hydrogen and/or a halogen at a specific amount, deposited by electron cyclotron resonance method, which is useful for image formation apparatus such as a laser printer.

Abstract: A photosensitive material for electrophotography which comprises an electrically conductive support of a desired shape and an organic photoconductive layer formed on the substrate, is provided. The organic photoconductive layer is formed from a solution of an organic charge-generating compound, an organic charge transfer compound and an organic resin in an organic solvent after low temperature treatment thereof wherein the solution is cooled to a temperature sufficient not to cause the solutes to be precipitated or the solution to be coagulated for a time enough to allow interaction between the compounds and the resin binder and is returned to room temperature. This solution is applied to the support and dried to form a photoconductive layer on the support. The photoconductive layer may be of a single-layer structure or a double-layered structure wherein at least one sub-layer should be formed from a solution subjected to the low temperature treatment.

Abstract: An electrophotographic photosensitive member is disclosed which comprises an electrically conductive substrate and a photoconductive layer formed on said substrate, wherein the photoconductive layer is made of amorphous silicon containing 40 atomic % or more of hydrogen and/or halogen.

Abstract: In an electrophotographic photosensitive device, which comprises an electroconductive support, a photoconductive layer provided thereon, and a surface protective layer provided on the photoconductive layer, the surface protective layer being made from a film having a density of localized states of not more than 5.times.10.sup.17 cm.sup.-3 and a higher dark resistance than that of the photoconductive layer, the surface protective layer is less susceptible to deterioration, adhesion to the photoconductive layer is enhanced, and thus the device has a prolonged life.

Abstract: A method and apparatus of manufacturing a photosensitive member including an electrically conductive support and a photoconductive layer formed on said support for use in electrophotography is characterized by including the steps of introducing a reacting gas containing predetermined components for forming said photoconductive layer on said support into said reaction chamber and irradiating ultraviolet light to activate said predetermined components while maintaining said support at a predetermined temperature thereby causing said predetermined components to be deposited onto said support.

Abstract: A photosensitive member of the present invention comprising an electrically conductive substrate, a photosensitive layer comprising an organic material and a hydrogen-containing amorphous carbon overcoat layer containing halogen atoms and at least one or more elements selected from the group consisting of chalcogen and elements in Group III, IV and V of the periodic table.The overcoat layer contains hydrogen in an amount of about 5 to about 50 atomic % based on the combined amount of hydrogen atoms and carbon atoms.

Abstract: An electrophotographic photoreceptor is disclosed, which comprises a support, a light-sensitive layer and a surface layer, the surface layer being predominantly composed of carbon and containing an element capable of forming a tetrahedral bond.

Abstract: A layered photoresponsive imaging member comprised of a supporting substrate; an amorphous photoconductive layer and a hole transport layer dispersed in a resinous binder, which layer is formulated from a solution mixture; and wherein the photoconductive layer is prepared by a process which comprises dissolving an inorganic photoconductive component in a solvent, removing the suspended particles therefrom, depositing the resulting solution on the supporting substrate, and subsequently heating the aforementioned member.

Abstract: A process for restoring imaging members, which comprises (1) providing a hydrogenated or halogenated amorphous silicon imaging member subsequent to its utilization in and removal from an electrophotographic imaging apparatus; and (2) contacting this member with a fluorine containing composition for an effective time period thereby resulting in an imaging member that when incorporated into an electrophotographic imaging apparatus enables the achievement of images with substantially no white spots as compared to the removed member.

Abstract: An electroconductive film is provided which has a first region constituted of a lamination layer comprising an electroconductive layer and an insulating layer, and a second layer having reduced or eliminated electroconductivity. Another type of electroconductive film is also provided having a first region constituted of a limination layer containing a compound having a polymerizable double bond and comprising an electroconductive layer and an insulating layer, and a second layer which is modified and having changed dissolution characteristics. The layer may be formed of a monomolecular film or monomolecular built-up film. A patterning method by use of the above electroconductive film is also provided.

Abstract: A process for forming a deposited film comprises introducing into a film forming space housing a substrate therein an active species (A) formed by decomposition of a compound containing germanium and a halogen and an active species (B) formed from a chemical substance for film formation which is reactive with said active species (A) separately from each other, then providing them with heat energy and thereby allowing both the species to react with each other thereby to form a deposited film on the substrate.

Abstract: Disclosed is an electrophotosensitive member and its preparing method. The electrophotosensitive member comprises an electrically conductive substrate, a photosensitive layer, and an overcoat layer having a rough surface with convexities and concavities. The number of convexities and concavities are about 500 to 3000 per 1 cm in a linear distance, and the maximum depth difference of the convexities and concavities is about 0.05 to 1.5 .mu.m. The rough surface having the convexities and concavities is formed directly on the overcoat layer. The electrophotosensitive member according to the present invention reduces the friction coefficient of the contacting area between the electrophotosensitive member and a cleaning device, and improves the durability of the overcoat layer and the photosensitive layer.

Abstract: A process for forming a deposited film comprises introducing into a film forming space housing a substrate therein an active species (A) formed by decomposition of a compound containing carbon and halogen and an active species (B) formed from a chemical substance for film formation which is chemically mutually reactive with said active species (A) separately from each other, then providing them with heat energy and thereby allowing both the species to react chemically with each other to form a deposited film on the substrate.

Abstract: A process for forming a deposited film, which comprises introducing into a film forming space for formation of a deposited film on a substrate an active species (A) formed by decomposition of a compound containing silicon and a halogen and an active species (B) formed from a germanium containing compound for film formation which is chemically mutually reactive with said active species (A) separately from each other, and then permitting the above respective active species and said germanium containing compounds to react chemically with each other by excitation by irradiation of light energy thereby to form a deposited film on the above substrate.

Abstract: Compounds of the formulae I, II and III ##STR1## in which R is --F, --Cl, --Br, C.sub.1 -C.sub.18 alkoxy, and n is the number 0, 1, 2 or 3, are suitable in particular for use as photoconductive substances.

Abstract: An electrophotographic lithographic printing plate is described, comprising an electrically conductive support and a photoconductive layer on the support, said layer being made mainly of a photoconductive zinc oxide and a resin binder, wherein in the surface of the photoconductive layer, the degree of exposure of photoconductive zinc oxide is from 10% to 70%.

Abstract: Multi-active photoconductive insulating elements which exhibit very high electrophotographic speed and panchromatic sensitivity, and whose manufacture can be effectively controlled to provide an electrical contrast ranging from a very low to a very high level, are comprised of a charge-generation layer and a charge-transport layer in electrical contact therewith and contain, as the charge-generating agent within the charge-generation layer, certain crystalline forms of N,N'-bis(2-phenethyl)perylene-3,4:9,10-bis(dicarboximide) characterized by particular spectral absorption and X-ray diffraction characteristics.

Abstract: An article having improved electrostatic charge transfer properties. The improvement in charge transfer properties results from subjecting a layer of photoconductive-insulative material or dielectric material on the charge donor or a layer of dielectric material on the charge receptor, or both layers, to plasma treatment process to provide an oxygen-enriched surface to the photoconductive-insulative layer and/or the dielectric layer.

Abstract: Image-forming member for electrophotography comprising a charge generation layer composed of hydrogenated amorphous silicon.

Abstract: Disclosed is a laminated photosensitive material for the electrophotography, which comprises an electroconductive substrate, a charge-generating layer composed of a vacuum deposition film of metal-free phthalocyanine formed on the substrate and a charge-transporting layer formed on the charge-generating layer, wherein the metal-free phthalocyanine film is a metal-free phthalocyanine particle layer composed mainly of .alpha.-type fine crystals having a crystal particle size of 100 to 2000 .ANG. and the vacuum deposition film has a thickness of 500 to 3000 .ANG. and a dark electroconductivity lower than 10.sup.-10 (.OMEGA.-cm).sup.-1.In this laminated photosensitive material, the initial charge quantity is improved, and the electrophotographic characteristics are stabilized when the photosensitive materials is used repeatedly or continuously.

Abstract: A layer of amorphous silicon containing H, preferably 10-40 atomic %H, is used as a photoconductive layer for electrophotographic photosensitive member.

Abstract: A method for fabricating an electrophotographic image forming member, wherein the first photoconductive layer consisting of an amorphous inorganic semiconductive material is formed on a substrate suited for the electrophotographic process, then the second photoconductive layer, which is different from the first photoconductive layer and consists of amorphous silicon containing therein silicon as the matrix and at least one of hydrogen and halogen atoms, is formed on the first photoconductive layer, and thereafter, the second photoconductive layer is annealed by irradiating a laser beam on the surface of the second photoconductive layer.

Abstract: Image-forming member for electrophotography comprising a charge generation layer composed of hydrogenated amorphous silicon.