Abstract: Novel articles and methods to fabricate same with self-assembled nanodots and/or nanorods of a single or multicomponent material within another single or multicomponent material for use in electrical, electronic, magnetic, electromagnetic and electrooptical devices is disclosed. Self-assembled nanodots and/or nanorods are ordered arrays wherein ordering occurs due to strain minimization during growth of the materials. A simple method to accomplish this when depositing in-situ films is also disclosed. Device applications of resulting materials are in areas of superconductivity, photovoltaics, ferroelectrics, magnetoresistance, high density storage, solid state lighting, non-volatile memory, photoluminescence, thermoelectrics and in quantum dot lasers.

Abstract: A dispensing device has a cantilever comprising a plurality of thin films arranged relative to one another to define a microchannel in the cantilever and to define at least portions of a dispensing microtip proximate an end of the cantilever and communicated to the microchannel to receive material therefrom. The microchannel is communicated to a reservoir that supplies material to the microchannel. One or more reservoir-fed cantilevers may be formed on a semiconductor chip substrate. A sealing layer preferably is disposed on one of the first and second thin films and overlies outermost edges of the first and second thin films to seal the outermost edges against material leakage. Each cantilever includes an actuator, such as for example a piezoelectric actuator, to impart bending motion thereto. The microtip includes a pointed pyramidal or conical shaped microtip body and an annular shell spaced about the pointed microtip body to define a material-dispensing annulus thereabout.

Abstract: A positive-displacement pump comprising a housing, a rotatable component disposed at least partially within the housing, and a film disposed at least partially between the housing and the rotatable component, where the film comprises a reinforcing material and a fluoropolymer material.

Abstract: There is provided an ink composition for ink jet recording, including (A) N-vinyllactam, (B) a compound having a partial structure represented by the following formula (I) and a polymerizable unsaturated bond, and (C) a radical polymerization initiator. In formula (I), R1 represents a hydrogen atom or an alkyl group, and R2 to R5 each independently represent a methyl group or an ethyl group.

Abstract: Coated articles and methods and systems for coating the articles are described herein. The methods and systems described herein include, but are not limited to, steps for actively or passively controlling the temperature during the coating process, steps for providing intimate contact between the substrate and the support holding the substrate in order to maximize energy transfer, and/or steps for preparing gradient coatings. Methods for depositing high molecular weight polymeric coatings, end-capped polymer coatings, coatings covalently bonded to the substrate or one another, metallic coatings, and/or multilayer coatings are also disclosed. Deposition of coatings can be accelerated and/or improved by applying an electrical potential and/or through the use of inert gases.

Abstract: A method and apparatus for forming a thermal barrier coating system (90) in communication with at least a portion of at least one substrate (92). The method includes: depositing a first bond coat (94) on at least a portion of at least one substrate (92); depositing a first thermal barrier coat (96) disposed on the bond coat (94); whereby the deposition occurs in one or more chambers to form the thermal barrier coating system (90); and wherein the deposition of the first bond coat (94) (or subsequent bond coats) and the deposition of the first thermal barrier coat (96) (or subsequent thermal barrier coats) is performed without out-of-chamber handling of the thermal barrier coating system (90).

Abstract: A carbon nanocapsule thin film and the preparation method thereof. A plurality of carbon nanocapsules are electroplated on a substrate, and the carbon nanocapsule thin film is thereby formed. By electroplating purified carbon nanocapsules on the substrate, the carbon nanocapsule thin film, electric- and heat-conductive, chemical-resistive, and anti-oxidizing, is formed.

Abstract: The present invention is directed, at least in part, to methods for imagewise patterning of a surface. Such patterned surfaces can be used, e.g., in microfluidic devices. Accordingly, the present invention is also directed, at least in part, to nanopatterned devices which include a microchannel structure and methods for forming such devices.

Abstract: A method of discharging droplets includes discharging a liquid material from a droplet discharge head and causing the droplet discharge head and a substrate as a landing target for the liquid material to move relative to each other to thereby deposit the liquid material on the substrate, feeding and removing the substrate to and from a droplet discharge apparatus provided with the droplet discharge head, performing a weight measurement discharge from the droplet discharge head substantially concurrent to the feeding and removing of the substrate to and from the droplet discharge apparatus, and measuring the weight of the liquid material discharged in the weight measurement discharge.

Abstract: A process for fabricating a metallic component is disclosed. The process includes performing multiple electroforming steps on an object to form metallic layers. The process includes performing between the electroforming steps masking and patterning steps using a non-conductive material. The resulting metallic component has either a single layer or multiple layers of cooling or heat transfer channels, which may be at right angles in adjacent layers. The non-conductive material can be removed during the process by a solvent or by melting. The object on which the metallic component is formed may be a flat or shaped mandrel from which the metallic component can be removed. The metallic component is particularly useful in forming optical components for use in extreme ultraviolet (EUV) systems and in cooling and heat transfer systems.

Abstract: A nanocarbon film that is produced in such a manner that, after a nanocarbon dispersion containing nanocarbon and a dispersant is used to form a film containing the nanocarbon and the dispersant, an external stimulus is applied to the film to at least partially decompose the dispersant contained in the film. Light irradiation is preferably applied as the external stimulus.

Abstract: To provide a process for producing an electret which has high stability with time and thermal stability of retained electric charge and which has excellent charge retention performance, and an electrostatic induction conversion device comprising such an electret. A process for producing an electret, which comprises a step of thermally treating a composition comprising a fluorinated polymer and a silane coupling agent, wherein the fluorinated polymer has an alicyclic structure in its main chain and has a carboxy group or an alkoxycarbonyl group as its terminal group; the silane coupling agent has an amino group; and the weight average molecular weight of the fluorinated polymer is at least 200,000. An electrostatic induction conversion device comprising such an electret.

Abstract: A vaporizing apparatus includes a chamber, a nozzle for dispersing a liquid into droplets, an electrode electrically isolated from the nozzle, and a heater for generating a vapor by applying heat to the droplets. The voltage source applies charges to the droplets by applying a voltage between the nozzle and the electrode. The vaporizing apparatus may be used to devices that deposit organic or inorganic thin films by chemical vapor deposition and/or atomic layer deposition processes, devices for supplying precursor materials that are deposited to form a thin film in organic light emitting diodes, devices that supply organic or inorganic precursor materials for encapsulation, and devices for supplying organic or inorganic polymer.

Abstract: This invention is to provide a process for producing a composite material that contains a thermoplastic resin as a matrix and is reinforced with electrically conductive fibers. This invention is to provide a process for producing a composite material that has a small percentage of voids and is excellent in mechanical properties such as flexural strength, flexural modulus. This invention is a process for producing a composite material, which comprises (1) the step (A) of causing the thermoplastic resin to adhere to the electrically conductive fibers and (2) the step (B) of applying microwave to said fibers to cause them to generate heat and impregnating said fibers with said resin, the composite material comprising a thermoplastic resin and the electrically conductive fibers being impregnated with the thermoplastic resin.

Abstract: Disclosed are films obtained from blends of ethylene copolymers with organic acid salt-modified potassium ionomeric copolymers. The films of the present invention can be welded using RF energy.

Abstract: A method for patterning a one or more biomolecules on a substrate that includes coating the substrate with a coating of the one or more biomolecules, applying a laser to the coating, and ablating a portion of the one or more biomolecules with the laser in a predetermined pattern.

Abstract: Techniques for making nanowires with a desired diameter are provided. The nanowires can be grown from catalytic nanoparticles, wherein the nanowires can have substantially same diameter as the catalytic nanoparticles. Since the size or the diameter of the catalytic nanoparticles can be controlled in production of the nanoparticles, the diameter of the nanowires can be subsequently controlled as well. The catalytic nanoparticles are melted and provided with a gaseous precursor of the nanowires. When supersaturation of the catalytic nanoparticles with the gaseous precursor is reached, the gaseous precursor starts to solidify and form nanowires. The nanowires are separate from each other and not bind with each other to form a plurality of nanowires having the substantially uniform diameter.

Abstract: A nanoporous filter comprises a porous support having an essentially flat surface on which is deposited a nanoporous layer having a substantially regular pore structure and uniform pore size within the range from 1 to 50 nm.

Abstract: A multi-layer semiconductor element package structure with surge protection function includes a substrate unit, an insulated unit, a one-way conduction unit and a protection unit. The substrate unit has at least one top substrate, at least one middle substrate and at least one bottom substrate. The insulated unit has at least one first insulated layer filled between the top substrate and the middle substrate and at least one second insulated layer filled between the middle substrate and the bottom substrate. The one-way conduction unit has a plurality of one-way conduction elements electrically disposed between the top substrate and the middle substrate and enclosed by the first insulated layer. The protection unit has at least one protection element with anti surge current or anti surge voltage function electrically disposed between the middle substrate and the bottom substrate and enclosed by the second insulated layer.

Abstract: A nanocomposite has significant social, economic and environmental benefits. By having high tensile strength and high toughness, a large number of opportunities of applying fly ashes are opened up. Besides replacing ordinary Portland cement, the nanocomposite is able to be used as an inorganic adhesive/resin to make fiber reinforced inorganic composites. The composite is fire resistant and has no volatile organic compounds. Due to its multifunctional character, the nanocomposite is able to be used as a sensing element in intelligent structures, corrosion protection coating for concrete and steel structures and even electronic devices.

Abstract: A pump piston and/or elements sealing the pump piston, in particular a sealing ring of elastomeric material with an additionally applied coating are/is proposed. To improve the durability characteristics, the pump piston and/or the elements sealing the pump piston have a coating which is formed at least predominantly of halogen-, silicon-, carbon-containing and/or metal-organic monomers. Furthermore, a device and a method for coating an object of elastomeric material utilizing a plasma are proposed.

Abstract: An optical component that includes a substrate and an optical thin film formed on the substrate. An internal stress ? (in units of MPa) satisfies Expression (1) given below when x=|E/R| is in the range of 0 to 3: ???30x??(1), where E is an effective optical diameter (in units of mm) of the substrate, R is a radius of curvature (in units of mm) of the substrate, and x is an absolute value of a ratio of E to R.

Abstract: The present invention improves luminance and light emitting efficiency of electroluminescent elements. A manufacturing method of electroluminescent elements includes forming a positive electrode on a substrate, forming an organic compound layer on the positive electrode, forming an electron injecting layer on the organic compound layer, and forming a transparent conductive film on the electron injecting layer, thus forming electroluminescent element. After forming the transparent conductive film on the electron injecting layer, by applying a voltage between the positive electrode and the transparent conductive film while heating the electroluminescent element, light emission of the electroluminescent element such as luminance and light emitting efficiency is improved.

Abstract: Metal nanoparticles are assembled in interrupted metal strands or other structures of characteristic dimensions and orientation to generate a giant dielectric response through a modified GE effect. Careful selection and modification of the host material and synthesis also leads to low dielectric breakdown voltages. In addition, the high dielectric composite material is employed in material configurations that are more scalable for industrial and consumer applications.

Abstract: Disclosed herein are apparatus and methods for selectively depositing molecular ions on nanoscale substrates such as carbon nanotube arrays using electrospray ionization.

Abstract: The present invention relates to a method for forming a photoresist-laminated substrate including: preparing a laminated substrate having an insulating substrate and a metal layer; coating with an aerosol of metal nanoparticles on the metal layer; laminating a photoresist film on the metal layer coated with the aerosol of metal nanoparticles. The method of the present invention is a environmentally friendly method since an aerosol of metal nanoparticles is used, differentiated from the conventional wet process.

Abstract: A method for reducing porosity of metal layers on a substrate may comprise depositing a precursor onto at least a portion of the substrate, and adding metal layers over the precursor comprising at least one cycle, wherein each cycle comprises: depositing a metal layer over the precursor, and exposing the metal layer to a breath-out solution.

Abstract: The invention provides a method of producing a metal plated material, the method including: preparing a polymer solution containing a polymer; preparing a composition by mixing the polymer solution with a monomer at an amount of from 30% by mass to 200% by mass with respect to the polymer, and with a compound having a non-dissociative functional group and a reactive group, the non-dissociative functional group being capable of interacting with a plating catalyst or a precursor thereof, and at least one of the polymer or the monomer having a functional group that reacts with the reactive group in the compound; forming a cured layer on a substrate by applying the composition, drying the composition and curing the composition; applying the plating catalyst or the precursor thereof to the cured layer; and conducting plating with respect to the plating catalyst or the precursor thereof to form a plating film on the cured layer.

Abstract: A probe for near-field light scattering, has, on the tip thereof, at least fine particles containing silver or silver oxide, a titanium oxide layer, and a silver layer at least in the named order from the surface thereof. A process for producing the probe for near-field light scattering comprises at least steps of forming a silver layer, a titanium oxide layer, and fine particles containing silver or silver oxide in the named order on the body of the probe. A near-field optical microscope or a Raman spectroscope, comprises the probe for the near-field light scattering; a control function for bringing the probe into contact with a surface of a test sample; an optical excitation system for producing an exciting light to or vicinity of the tip of the probe; and detecting optical system for detecting detection light emitted form the tip of the probe.

Abstract: The apparatus and method use an optical feedback system to align a transducer with a stent strut. Once alignment is achieved, the transducer causes a coating to be ejected onto the stent strut and the transducer is moved along the stent strut to coat the stent strut.

Abstract: A cermet armor material for highly effective ballistic performance which is comprised of a layer of base metal in which is deposited a layer or layers of ceramic and a compatible metal such that the deposited metal in combination with the base metal forms a continuous matrix around the ceramic particles. The body has a structure which is continuously graded from a highest ceramic content at the outer surface (strike face) decreasing to zero within the base substrate, and contained no abrupt interfaces.

Abstract: The invention provides, in preferred embodiments, methods, systems, and devices arising therefrom for making battery electrodes, in particular, for lithium-ion batteries. Unlike conventional slurry coating methods that use mechanical means to coat thick pastes of active material, other materials, and solvent(s) onto a substrate, the invention provides for a method to produce electrode coatings onto support in a multi-layer approach to provide highly uniform distribution of materials within the electrode. Problems of differential sedimentation of particles in slurries found in conventional methods are minimized with the methods of the present invention. Also included are systems for producing in large-scale the battery electrodes of the invention. Further included are electrodes produced by the methods and systems described herein.

Abstract: A process for producing a metallized textile surface comprises (A) applying a formulation comprising at least one metal powder (a) as a component patternedly or uniformly, (B) depositing a further metal on the textile surface, (C) applying a further layer comprising carbon in the form of carbon black or carbon nanotubes or graphene.

Abstract: A method includes generating an aerosol comprising a plurality of catalyst particles from a precursor solution comprising a carbon source and a catalyst, transmitting the plurality of catalyst particles through a reaction zone extending along a temperature profile including at least one temperature sufficient to induce in each of the plurality of catalyst particles growth of a plurality of carbon nanotubes, and positioning at least one substrate along the temperature profile and at least partially outside of the reaction zone at a position to collect a portion of the plurality of carbon nanotubes on a surface of the at least one substrate.

Abstract: An aligned metal-particle film, in which metal particles are aligned in a polymer as a layer with a certain interval in parallel with a substrate is disclosed. The aligned metal-particle film is manufactured by forming a polymer film containing a metal component on a reflecting substrate; and irradiating the polymer film with light at a particular wavelength, whereby metal particles are aligned in parallel with the substrate in the polymer.

Abstract: An exemplary embodiment provides coated polymeric substrates that have a polymeric substrate body with a coated surface. The surface coating includes more than one pair of coating layers. Each pair of coating layers includes a first applied coating layer and a second applied coating layer. In addition, an indicator, applied on top of or between coating layers, provides an indication of wear of the coating. The first and second applied coating layers have a thickness between about 3 to about 10 nanometers. The coating exhibits a Hall-Petch effect.

Abstract: A method of coating a peripheral surface of a sleeve core with a radiation curable coating liquid including the steps of: supporting a sleeve core in a vertical position coaxial with a coating axis; providing an annular coating collar, supplying the coating liquid to the annular coating collar and moving the annular coating collar along the sleeve core in a vertical direction coaxial with the coating axis, thereby coating a layer of the coating liquid onto the peripheral surface of the sleeve core; wherein the coated layer of the coating liquid is cooled by the peripheral surface of the sleeve core to have a viscosity at the temperature of the peripheral surface of the sleeve core and at a shear rate of 10 s?1 which is larger than a minimum viscosity ?min, with: ? min = d 2 50 wherein d represents the thickness of the coated layer expressed in ?m, and ?min is expressed in mPa·s. Also, a coating device for performing the above coating method.

Abstract: A method is provided for fabricating a construction (10) having a functional side (12). The method includes the steps of: supplying a flexible substrate (20); attaching one or more structures (30) to the substrate (20) on a surface or side thereof facing the functional side (12) of the construction (10); and forming one or more features, for example, such as fibrils (39), on at least one of the structures (30), wherein the features have at least one dimension which is at least one of micro-sized or nano-sized.

Abstract: This impregnation device comprises at least a first dielectric insulating screen and first and second opposite-facing electrodes which are separated by a passage for the porous material to be impregnated provided with powder and are capable of producing an alternating electric field in this passage after having been connected to an alternating voltage generator. At least first electrode comprises at least two conducting strips, each of which has an internal face covered by the first dielectric screen and, overall, is turned towards the second electrode and also a longitudinal edge running along a separating slot, which strips are separated from each other by this separating slot and are electrically connected to one another.

Abstract: A process for the formation of particles of a target material is disclosed, comprising: (i) introducing the target material into a particle formation vessel, and forming a continuous liquid surface of the target material in the particle formation vessel, and an interface between said liquid surface of the target material and additional gaseous contents of said particle formation vessel; (ii) introducing a stream of cryogenic material including solid particles of cryogenic material into the particle formation vessel and into contact with the target material in a liquid state below the continuous liquid surface; (iii) allowing rapid volumetric expansion of the cryogenic material into a gaseous state while in contact with the target material in a liquid state, and release of the expanded gaseous cryogenic material through the continuous liquid surface, and forming liquid droplet particles of the target material; and (iv) collecting the formed particles of the target material.

Abstract: Method and apparatus for polymerizing photoactive materials included in a liquid material by electromagnetic radiation, by dispensing the liquid material layer-wise into a container and irradiating the accumulated layers by a curing radiation, wherein a substantial part of the radiation is well transmitted through the photoactive material.

Abstract: A light control film including a polymer carrier film and a coating disposed on the carrier film and including dark colored or reflective particles dispersed within a cured resin matrix, the particles being aligned either perpendicular or parallel to a major surface of the carrier film, and method for making the same.

Abstract: High-throughput OVJP systems and methods are provided that may use multiple flow paths having different conductances to enable deposition with relatively short lag times. A high-throughput OVJP system may include a flow tube having a cross-sectional area much larger than the diameter of one or more apertures through which source material may be expelled during deposition. Use of such a configuration may allow for deposition with reduced lag times.

Abstract: A splittable optical fiber ribbon has a decreased propensity for fiber fallout along a longitudinal split. Fibers adjacent to a split location, called border fibers, have increased bond strength between their ink-coating and a surrounding matrix material. The bond strength is increased by first partially curing an ink that covers the border fibers, coating the partially-cured fibers with a matrix material, and then substantially fully curing the ink and the matrix material substantially simultaneously. The ribbon may include one or more grooves to enhance splitting the ribbon into subsets.

Abstract: The invention relates to a coating formulation for preparing a hydrophilic coating, wherein the hydrophilic coating formulation comprises a hydrophilic polymer, a supporting polymer comprising a backbone and at least 2 reactive moieties capable of undergoing polymerization reactions, a Norrish Type I photoinitiator and a Norrish Type II photoinitiator.

Abstract: A method for fabricating graphene nanoribbons comprises the steps of providing a chamber with a first and a second cavity, which are separated by a divider that defines an opening to place the first cavity in fluid communication with the second cavity; positioning a graphite sample in the first cavity; positioning a container with a metal disposed therein in the second cavity; heating the container to expel a cloud of metal; injecting a gas into the second cavity to propel the cloud of metal through the opening and into the first cavity where it contacts the graphite sample to produce dislocation bands; removing the graphite sample from the chamber; and electrostatically depositing the dislocation bands on a substrate as graphene nanoribbons.

Abstract: A method and system for modifying a drug delivery polymeric substrate for an implantable device, such as a stent, is disclosed.

Abstract: A titanium-copper-nickel based alloy is used for the formation of at least one resistive thin film on a polymer substrate. The alloy comprises 50 to 80% by weight of titanium, 10 to 25% by weight of copper and 10 to 25% by weight of nickel. The thin film has a thickness between about 100 and 160 nanometres.

Abstract: The invention relates to an apparatus and a method of producing molding materials and coatings on substrates by curing radiation-curable materials under an inert gas atmosphere by exposure to high-energy radiation.

Abstract: A plasma deposition apparatus for making polycrystalline silicon including a chamber for depositing said polycrystalline silicon, the chamber having an exhaust system for recovering un-deposited gases; a support located within the deposition chamber for holding a target substrate having a deposition surface, the deposition surface defining a deposition zone; at least one induction coupled plasma torch located within the deposition chamber and spaced apart from the support, the at least one induction coupled plasma torch producing a plasma flame that is substantially perpendicular to the deposition surface, the plasma flame defining a reaction zone for reacting at least one precursor gas source to produce the polycrystalline silicon for depositing a layer of the polycrystalline silicon the deposition surface.