Abstract: The present invention provides an apparatus for producing an electrophotographic photosensitive member that has a coating machine for dipping plural members to be coated in a coating liquid in a coating bath and then lifting up the coated members to form a coating film on the surface of each of the plural members to be coated and a transport holding member for holding and transporting the members to be coated, and has plural stretching hoods which can individually cover each side of the plural members to be coated and can extend in association with the movement of the plural members to be coated to individually cover each side of the plural members to be coated when the coating machine is lifting up the plural members to be coated, wherein the plural stretching hoods are linked with each other at the lower parts of the hoods.

Abstract: A process for treating wood comprising at least partially penetrating it with a urethane- or acrylate-based fluoro-material. Also, wood produced by the process.

Abstract: Techniques for forming a carbon nanotube (CNT) structure are disclosed.

Abstract: There is disclosed a vehicle console trim component. The trim component can include an articulated door with a plurality of slats, a substrate, and a flexible layer including a pattern for decoration disposed on and supported by the substrate. The flexible layer will maintain the pattern for decoration as the articulated door is cycled. The pattern for the vehicle trim component may be a photographic image. An overcoat also can be disposed on the flexible layer.

Abstract: A composite membrane for a capacitor, comprising: a carrier; a mixture of a catalytic material for catalyzing hydrogen and oxygen, and a dispersion resin. The catalytic material is selected from the group consisting of a precious metal in Group VIII of the periodic table of elements and their alloys, and a rare earth metal of the La group of rare earth metals and their alloys. The carrier is a film formed by at least one of the following: polypropylene, polyethylene, polytetrafluoroethylene and polyamide. The carrier can include asbestos fibers, polypropylene fibers, or their mixture. The dispersion resin can be one of the following: ethylene, Nafion™, polyvinyl alcohol, polyethylene, CMC, and the like. The present disclosure also provides a method for making a composite membrane, and a capacitor with the composite membrane.

Abstract: Techniques for fabricating carbon nanotubes aligned on a tip are provided. In one embodiment, a method for fabricating carbon nanotubes aligned on a tip includes forming nanostructures on the tip, and aligning the nanostructures on the tip using a fluid flowing on the tip.

Abstract: A coating method including forming a coating liquid having modified particles, the modified particles being formed by covalently attaching at least one modifier to at least one particle; forming a coating layer on a surface of subphase liquid in a container; and separating a substrate and the container

Abstract: A fuel cell separator, comprising carbonic electro-conductive graphite, and non-carbonic epoxy resin, hardening agent and hardening expediter, which are all made into powder, and formed into the fuel cell separator, wherein the fuel cell separator is plated with nickel by plating with nickel the surface of the fuel cell separator made through the process described above.

Abstract: The invention relates to polymeric ultrafiltration or microfiltration membranes of, for instance, Halar, PVDF or PP, incorporating PVME or vinyl methyl ether monomers. The PVME may be present as a coating on the membrane or dispersed throughout the membrane or both. The membranes are preferably hydrophilic with a highly asymmetric structure with a reduced pore size and/or absence of macrovoids as a result of the addition of PVME. The PVME maybe cross-linked. The invention also relates to methods of hydrophilising membranes and/or preparing hydrophilic membranes via thermal or diffusion induced phase separation processed.

Abstract: A substrate processing apparatus includes a bath in which a liquid or a gas is fed, and a mechanism which feeds out a liquid or a gas into the bath. The substrate processing apparatus processes a to-be-processed substrate which is disposed in the bath. The mechanism includes a first feed-out device and a second feed-out device configured to feed out the liquid or gas into the bath, the first feed-in device configured to start/stop the feed-out of the liquid or gas from the first feed-out device, and second feed-in device configured to start/stop the feed-out of the liquid or gas from the second feed-out device.

Abstract: The object of the present invention is to provide a fabric treating agent to satisfy good sewability required to interior material fabrics for vehicles including automobiles and trains, the good sewability which arises from the trend toward ultrafiner fibers for manufacturing the fabrics, change in fabric structure from weave to knit, and increasing sewing machine speed. The present invention provides the fabric treating agent comprising at least one wax (a) selected from the group consisting of a paraffin wax having a melting point of 60° C. or higher, an oxidized paraffin wax having a melting point of 60° C. or higher, a polyethylene wax having a melting point of 100° C. or higher, and an oxidized polyethylene wax having a melting point of 100° C. or higher; and a nonionic surfactant (b). The present invention also provides a process for producing fabrics applied with the fabric treating agent, and provides vehicle interior material fabrics.

Abstract: A vanish, a heat-dissipation prepreg, and the manufacturing method thereof are disclosed. The vanish has a curing agent with structure as indicated in formula (1). The vanish based on this curing agent will improve thermal stability and peel strength. Glass fabric cloth is dipped into the vanish having the curing agent to form a heat-dissipation prepreg with better thermal stability and peel strength. Furthermore, the curing agent has polarity so that inorganic powders are uniformly distributed in the prepreg. Therefore, the dissipation efficiency of the heat-dissipation prepreg is improved.

Abstract: A nanoparticle comprising a shell surrounding a core material with a lower conductivity than the shell material, wherein the core center is offset in relation to the shell center. A method comprising providing a nanoparticle comprising a nonconductive core and a conductive shell, and asymmetrically depositing additional conductive material on the conductive shell. A method comprising providing a concentric nanoshell having a core and a shell, immobilizing the concentric nanoshell onto a support, and asymmetrically depositing a conductive material onto the shell to produce a nanoegg.

Abstract: A surface treatment method of an FRP substrate is provided. According to the method, an FRP substrate that is less deformed than a conventional flexible substrate material is used, and surface roughness, which is a drawback of the FRP substrate, is improved so that it may be applied to the fabrication of a device. In order to reduce the surface roughness of an FRP substrate, the FRP substrate is coated with an organic insulating solution and thereby planarized. Due to the reduced deformation and superior flatness, failures occurring due to misalignment in a photolithography process may be prevented.

Abstract: A polymer composite multiend roving material used to make structural composite parts includes a bundle of fibers held together by a high integrity sizing composition and surrounded by a powder coating polymer material. The powder coating material is approximately 10-80% of the dry weight of the multiend composite roving weight. The multiend composite roving material may then be easily processed further to form a molded composite part having good mechanical properties and high fiber content.

Abstract: A mounting assembly for supporting a stent and a method of using the same to coat a stent is disclosed.

Abstract: Disclosed is a venting assembly for a dip coating system, a dip coating system utilizing such venting assembly, and related method for dip coating. These aspects are particularly directed for the production of organic photoconductor layers in imaging devices, and more particularly to drum photoreceptors. The venting assembly eliminates or significantly reduces coating defects otherwise occurring in the production of drum photoreceptors. Also disclosed are the drum photoreceptors produced by this assembly, apparatus and coating process.

Abstract: A method of producing a silica or silica-like coating by forming a precursor formulation from oligomeric organosilicate. The precursor formulation is coated on a substrate as a continuous liquid phase. The precursor formulation is then cured in an ammoniacal atmosphere to produce a continuous, interconnected, nano-porous silica network.

Abstract: The present invention relates to antibacterial composition containing silver complexes, antibacterial treatment methods using the same and antibacterial formed article, in which the antibacterial composition containing silver complexes is economical, not wearing off due to washing, cleaning, rubbing, etc., firmly combined to improve durability and antibacterial effect, and applicable to various products due to great solubility and stability.

Abstract: Described herein are coatings containing water-soluble oligodynamic metal salts that are formulated and applied from hydrophobic solvents. In particular, articles of manufacture comprising polymer coatings containing oligodynamic metal salts can include hydrophobic polymer coatings made from water-reactive monomers and hydrophilic polymers compounded in hydrophobic solvents which contain a small amount of water that aids in the solubilization and suspension of the oligodynamic metal salts. Methods of preparing these antimicrobial polymer coatings, and methods of coating a substrate to produce an article of manufacture having an antimicrobial polymer coating are also described.

Abstract: A particle arrangement apparatus of the present invention includes a tank for holding a dispersion of particles, a rotating means for rotating the substrate inside the tank to dip the substrate into the dispersion and to remove the substrate from the dispersion, and a coating means for applying a liquid different from the dispersion to the surface of the substrate when the substrate is not in contact with the dispersion.

Abstract: A system for providing temporary durable protective coatings onto surfaces of building construction elements, and for controllably removing said temporary protective coatings from said surfaces. The system comprises coating compositions configured to provide pliable resilient yet durable temporary protective coverings on surfaces of building construction elements, stripping compositions configured to at least partially dissolve the temporary protective coverings, and methods for use of said coating compositions and said stripping compositions.

Abstract: This invention relates to a durable fire retardant nonwoven fabric and method of making the same. Said fabric performs in accordance to the requirements set forth in Technical Bulletin 603 of the State of California Department of Consumer Affairs (TB_603), wherein the fire retardant fabric includes at least two layers including at least one strength and reinforcing layer.

Abstract: The present invention relates to the use of certain amine-modified siloxanes, exhibiting at least one molecular unit with an amine-modified radical and at least one molecular unit with a hydrophilic radical, as protecting agents. These protecting agents are suitable for protecting materials, such as wood and other substances based on cellulose and/or lignin, but also other materials, such as plastics, minerals, and metals, from infestation by and spread of harmful microorganisms, such as fungi. The present invention further relates to a method of enhancing surfaces and workpieces, comprising the application and/or incorporation of the protecting agent of the invention to the surfaces and/or into the workpieces.

Abstract: The invention provides foams of desired cell sizes formed from metal or ceramic materials that coat the surfaces of carbon foams which are subsequently removed. For example, metal is located over a sol-gel foam monolith. The metal is melted to produce a metal/sol-gel composition. The sol-gel foam monolith is removed, leaving a metal foam.

Abstract: A mixed fluid obtained by mixing and stirring a high pressure fluid and a plating solution containing fine particles is contacted with a body to be plated to form a composite plating film. When an inkjet recording head is manufactured, a protective film 14 for plating is formed on a surface on a side opposite to an ink jet side of a nozzle plate 11 and, preferably, a mixed fluid obtained by mixing and stirring supercritical carbon dioxide, and a plating solution containing liquid repellent fine particles and a surfactant is contacted with a nozzle plate to form a composite plating film 16 on a surface on an ink jet side. After plating, the protective film for plating is removed from the nozzle plate.

Abstract: A material comprising at least one polymer and at least one sensitizer wherein the sensitizer is localised at a surface of the material wherein the sensitizer is an agent or compound able to provide improved anti-bacterial and/or anti-viral activity following exposure of the sensitizer to a particular wavelength or range of wavelengths of electromagnetic radiation.

Abstract: The present invention pertains to a method for transversely soaking prepreg applied to the copper-clad laminate which initially supplies a prepreg to a bottom side of a basin filled with resin glue, and thence laterally transports the prepreg from the bottom side of the basin toward the top side thereof via guidances of revolving shafts disposed inside the basin. By means of the transverse route of the prepreg conducted by the revolving shafts, the time of soaking the prepreg in the basin is extended so as to reduce bubbles existed in the prepreg via fully immersing the resin glue throughout the prepreg and further increase the composite quality of the copper-clad laminate and the reliability of the metal resistant ion. Therefore, the present invention facilely gets acclimated to the industry without adding more equipment.

Abstract: A copolymer composition comprising monomers copolymerized in the following percentages by weight: (a) from about 20% to about 95% of a monomer, or mixture of monomers, of formula (I): CnF2n+1(CH2)x[(CF2CF2)y(CH2CH2)z]m-L-C(O)—C(R)?CH2??(I) wherein R is H, Cl, F or CH3, L is O, S, NH, S—(CH2)rO, S—(CH2)rNH, OC(O)NH—CH2CH2O, NHC(O)NHCH2CH2O, S—(CH2)rOC(O)NHCH2CH2O, or S(CH2)rNHC(O)NHCH2CH2O, and (b) from about 5% to about 80% of at least one of: (i) an alkyl (meth)acrylate monomer having a linear, branched or cyclic alkyl group of from about 6 to about 18 carbons; or (II) a monomer of formula (II) (R2)2N—R3—O—C(O)—C(R)?CH2??(II) wherein R is H, Cl, F or CH3, each R2 is independently a C1 to C4 alkyl; and R3 is a divalent linear or branched C1 to C4 alkylene; and wherein the nitrogen is from about 40% to 100% salinized; or (iii) a mixture thereof.

Abstract: A system for preventing the accumulation of excess lubrication in the form of lubricant lines on magnetic media disks for hard disk drives uses a mandrel design that produces negligible surface waves when the disks are dipped in lubricant baths. The mandrel has inverted tear drop shaped supports for the disks. The supports are smaller in overall size than an inner diameter hole formed in the disks and diminish the formation of waves in the lubricant bath.

Abstract: Provided herein are the polymers shown below. The value n is a positive integer. R1 is an organic group, and each R2 is H or a chemisorbed group, with at least one R2 being a chemisorbed group. The polymer may be a nanostructured film. Also provided herein is a method of: converting a di-p-xylylene paracyclophane dimer to a reactive vapor of monomers; depositing the reactive vapor onto a substrate held at an angle relative to the vapor flux to form nanostructured poly(p-xylylene) film; reacting the film with an agent to form hydrogen atoms that are reactive with a precursor of a chemisorbed group, if the film does not contain the hydrogen atoms; and reacting the hydrogen atoms with the precursor. Also provided herein is a device having a nanostructured poly(p-xylylene) film on a pivotable substrate. The film has directional hydrophobic or oleophobic properties and directional adhesive properties.

Abstract: The methods, systems 400 and apparatus disclosed herein concern metal 150 impregnated porous substrates 110, 210. Certain embodiments of the invention concern methods for producing metal-coated porous silicon substrates 110, 210 that exhibit greatly improved uniformity and depth of penetration of metal 150 deposition. The increased uniformity and depth allow improved and more reproducible Raman detection of analytes. In exemplary embodiments of the invention, the methods may comprise oxidation of porous silicon 110, immersion in a metal salt solution 130, drying and thermal decomposition of the metal salt 140 to form a metal deposit 150. In other exemplary embodiments of the invention, the methods may comprise microfluidic impregnation of porous silicon substrates 210 with one or more metal salt solutions 130. Other embodiments of the invention concern apparatus and/or systems 400 for Raman detection of analytes, comprising metal-coated porous silicon substrates 110, 210 prepared by the disclosed methods.

Abstract: A field emission device, including: a cathode substrate; a carbon nanotube array slice attached on the cathode substrate, the carbon nanotube array slice including a plurality of carbon nanotube segments arranged approximately parallel to each other, the carbon nanotube segments each having a first end and an opposite second end, the first ends thereof terminating at a common plane, and the second ends thereof being electrically connected to the cathode plant. A method for manufacturing the field emission devices based on carbon nanotube array is also provided.

Abstract: A method of producing a polymer electrolyte fuel cell separator material efficiently produces a separator material that has a uniform and reduced thickness and exhibits excellent properties. The method includes dispersing 100 parts by weight of a carbonaceous powder in a resin solution to prepare a slurry having a viscosity of 100 to 1500 mPa·s, the resin solution being prepared by dissolving 10 to 35 parts by weight of a resin binder and 0.1 to 10 parts by weight of a dispersant in an organic solvent, immersing an organic sheet having a through-hole open area ratio (R) of 25 to 85% in the slurry so that the slurry adheres to each side of the organic sheet, drying the slurry so that each side of the organic sheet is coated with the slurry to obtain a green sheet, cutting the green sheet into a specific shape, and thermocompression-forming one or more green sheets.

Abstract: A method of forming a golf ball is disclosed herein. The method includes placing a golf ball precursor product comprising a thermoplastic polyurethane cover further comprising an isocyante or hydroxyl terminated polybutadiene in an isocyanate solution. The precursor product is then removed and heated to remove solvent. The precursor product may then be subjected to gamma or electron beam irradiation.

Abstract: A prefabricated asphalt-based waterproof roofing membrane for use in a multi-ply asphalt-based commercial roofing system, e.g. a cap sheet that forms the exposed layer of a multi-ply built-up roofing system, is manufactured at a factory to have a highly reflective non-asphalt based elastomeric top coating layer with an upper surface that meets current EPA Energy Star requirements. Preferably, a polymer primer layer is interposed between the highly reflective coating layer and an asphalt saturated and coated reinforcing substrate to keep oils and other colored components in the asphalt from exuding into the highly reflective coating layer.

Abstract: A polymer assisted deposition process for deposition of metal oxide films and the like is presented. The process includes solutions of one or more metal precursor and soluble polymers having binding properties for the one or more metal precursor. After a coating operation, the resultant coating is heated at high temperatures to yield metal oxide films and the like. Such films can be epitaxial in structure and can be of optical quality. The process can be organic solvent-free.

Abstract: Thermoplastic compositions containing certain salts of fluorinated sulfonic acids adhere especially well to coatings (paints) applied to the surface(s) of that composition. Useful parts that can be made include painted automotive body parts, appliance cases, and other parts with painted aesthetically pleasing surfaces.

Abstract: A coating apparatus for batches of elongate flimsy members includes batch handling portion and a coating portion. The batch handling portion having an array support portion and an array alignment portion. The array support portion secures and vertically moves an array of elongate flimsy members to be lowered into an array of inlets of the coating portion, the inlets aligned in an array. The array alignment portion provides removable discrete position locating of the individual flimsy members by a guide portion that moves from an upwardly position downwardly to position each member of the array in alignment with the array of inlets. The support portion then lowers the flimsy members into the coating portion through the array.

Abstract: A structurally supporting insert and associated process including a body having a specified shape and size and including both an exterior and an interior. A first material, such as a waterproofing and/or degradation preventing spray or coating applied to each of exterior and interior locations of the body. A second material, such a composite plastic material, is applied over the first material according to a built-up thickness about the exterior of the body in order to encapsulate the body.

Abstract: The present invention relates to a method of incorporating a catalytic poison into a non-plating grade resin portion of a double shot molded plastic part, to retard the tendency of any electroless plating chemistry to be deposited on that portion that contains the catalytic poison. After surface treatment, only one portion of the molded part becomes receptive to electroless plating while the other portion does not.

Abstract: The invention relates to a method for coating sheet-form textile materials, in which there is applied to a sheet-form textile material an aqueous dispersion containing anionically modified polyurethane ureas comprising (A) aromatic diisocyanate, (B) polyether polyol having a mean molecular weight greater than 1500, (C) at least one compound containing from 1 to 2 isocyanate-reactive groups and at least one ionogenic group, (D) polyamine having a mean molecular weight of at least 32, and (E) water, wherein the mean total functionality of the isocyanate-reactive compounds B to D is from 1.85 to 2.2, the molar ratio of the isocyanate groups of component A to the isocyanate-reactive groups of components B to D is greater than 1, and the polyurethane ureas have a content of from 800 to 1500 mmol of urethane groups/kg of anionically modified polyurethane urea and a content of from 800 to 1800 mmol of urethane plus urea groups/kg of anionically modified polyurethane urea.

Abstract: A preparation method of a dye incorporated in a recording layer for a high density optical recording medium, having the following general chemical structural formula (I): is provided.

Abstract: The invention relates to alkali-resistant sol-gel coatings, a process for producing alkali-resistant sol-gel coatings and use thereof. To provide alkali-resistant sol-gel coatings, a coating is proposed within the scope of the invention that consists of a hydrolysable silane of the compounds TEOS, MTEOS or higher-chain alkyl silanes (di- tri- and tetrafunctional silanes), but preferably TEOS, MTEOS or mixtures thereof and a condensation catalyst based on a) secondary or tertiary bases (e.g. amino, mercaptosilanes) and/or b) Lewis acids as metal alkoxides, such as aluminium alkoxides, zirconium alkoxides and titanium alkoxides where the ratio (in wt. %) of hydroysable silane to condensation catalyst is between 99:1 and 70:30.

Abstract: A method for producing a carbon nanotube thin film comprises a step of dropping a mixed liquid containing carbon nanotubes and an ionic liquid onto a liquid surface of a film forming liquid to spread the carbon nanotubes on the liquid surface.

Abstract: The invention provides a flame-retardant processing agent capable of imparting durable flame retardance to polyester-based fiber products without using halogen-based flame retardant. The flame-retardant processing agent is obtained by dispersing at least one phosphoric acid amide selected from the group consisting of 1,4-piperazinediyl bis(diarylphosphate), diaryl aminophosphate and aryl diaminophosphate as a flame retardant in a solvent in the presence of a nonionic surfactant or an anionic surfactant.

Abstract: A method of making a composite membrane with ion exchange properties includes, in an exemplary embodiment, forming a porous membrane from a first material, dissolving a coating material in a fluid at supercritical conditions, and exposing the porous membrane to the coating material dissolved in the supercritical fluid. The method also includes precipitating a uniform coating of the coating material onto an exterior surface of the porous membrane by changing the supercritical conditions of the fluid to a non-supercritical condition, and applying an ion exchange material to the coated porous membrane so that the ion exchange material is in intimate contact with substantially all of the coated surfaces of the porous membrane.

Abstract: A superhydrophobic coating of a nonwoven material is coated with a spongy mesh structure in the micro and nano ranges.

Abstract: A process and system for continuous flow-through dip-coating of a workpiece requires the introduction of the workpiece in a porous coating basket at a first side of a coating chamber and the removal of the coated workpiece in the coating basket from a second side of the coating compartment different from the first side. This enables the commingling of coated and uncoated workpieces to be avoided and allows for a higher throughput in the coating process.

Abstract: A new treatment method for ion exchange membranes used in semi-fuel cells that accelerates the wetting of the membranes by aqueous electrolyte solutions, thus reducing the start up time for metal/hydrogen peroxide-based semi-fuel cells. Specifically, a NAFION® membrane that is intended for dry storage in a semi-fuel cell is treated with glycerin (glycerol) to enhance its rate of absorption of electrolyte solution when the semi-fuel cell is activated.