Abstract: The present invention provides an active radiation curable ink composition including: (A) a polymer having two or more acidic groups or two or more basic groups; (B) a polymerizable monomer having a substituent group capable of forming a counter salt with the acidic group or basic group of the polymer (A); (C) a photo-polymerization initiator; and (D) a polymerizable monomer having a different structure from the polymerizable monomer (B).

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 corrosion inhibiting coating includes a primer layer having incorporated therein corrosion inhibitor-loaded containers which release a corrosion inhibitor in response to electromagnetic irradiation; and a container-free protective top layer which, when intact, prevents spontaneous opening of the containers in the primer layer induced by electromagnetic irradiation, wherein the coating-releases an inhibitor in response to electromagnetic irradiation if the protective top layer contains defective areas which enable direct exposure of the containers to the electromagnetic irradiation.

Abstract: Methods and systems for presensitizing film, including causing a presensitization effect on a region of a film, the presensitization effect, as a function of time, exhibiting a presensitization effect peak after a peak time from an initiation of the presensitization effect, and exposing, after a delay time, substantially the same region of the film to a spectrum of information-containing electromagnetic radiation, the presensitization effect at the delay time being substantially equal to the presensitization effect peak.

Abstract: An additive manufacturing powder dispenser has a metering member for dispensing a line of powder to be used in an additive manufacturing process. The metering member has one or more metering voids that extend through the metering member with entrance openings defined in a first face of the metering member and exit openings defined in a second face of the metering member. In use, powder passes into the metering member through the entrance openings, is maintained within the metering member, and passes out of the metering member through the exit openings to dispense a line of powder.

Abstract: Methods and systems for presensitizing film, including presensitizing a first region of a film, where the first region is a first subset of an image region, presensitizing a second region of the film, where the second region is a second subset of the image region, and where the presensitizing the second region of the film is performed subsequently to the presensitizing the first region of the film.

Abstract: A method for producing a thermoelectric material is provided. A semiconductor material powder is provided. An electroless plating process is preformed to deposit metal nano-particles on the surface of semiconductor material powder. An electrical current activated sintering process is performed to form a thermoelectric material having one and plurality grain boundaries.

Abstract: A structure that comprises a substrate; a cross-linked random free radical copolymer on the substrate; and a self-assembled patterned diblock copolymer film on the random copolymer; wherein the random copolymer is energy neutral with respect to each block of the diblock copolymer film. A method of making the structure is provided.

Abstract: A method for manufacturing a laminated structure includes a step of supplying a droplet of a functional fluid selectively to at least a first region of a high surface energy area formed in a wettability variable layer of the laminated structure. In the step, the droplet is supplied by inkjet printing, and a center position of the droplet is determined in such a manner as to satisfy both Equations (1) and (2) below: X<±(L+2S?D?2?)/2 (here, L+2S>D+2?) ??(1) X<±(L+D?2?)/2 (here, L+2D>D+2?) ??(2), where X is a distance between a center position of the first region and the center position of the droplet, D is a diameter of the droplet when travelling, ? is variation in a landing position of the droplet, L is width of the first region, and S is a gap between the first and the second regions.

Abstract: The present invention relates to a method for the realization of a structure for couches, beds, mattresses, chairs and the like. In particular, in accordance with a first embodiment, operations are foreseen that include the processing in machine tools of a single mono-block in such a way as to obtain a monolithic final structure. A superficial treatment of the structure thus obtained may be included. A second embodiment relates to the processing of one or more monolithic blocks to obtain many parts that are subsequently combinable with each other to obtain the final structure. In that case, a superficial treatment can be included to join the parts with each other and provide the mechanical features to the material, or, alternatively, the superficial treatment of the single parts and subsequent combination with each other can be performed. A shape-memory polymer composite material is of particular interest for the present application.

Abstract: A barrier film composite includes a film with an undulating surface; and at least one decoupling layer and at least one barrier layer disposed on the undulating surface of the film.

Abstract: Metalized plastic substrates, and methods thereof are provided herein. The method includes providing a plastic having a plurality of accelerators dispersed in the plastic. The accelerators have a formula ABO3, wherein A is one or more elements selected from Groups 9, 10, and 11 of the Periodic Table of Elements, B is one or more elements selected from Groups 4B and 5B of the Periodic Table of Elements, and O is oxygen. The method includes the step of irradiating a surface of plastic substrate to expose at least a first accelerator. The method further includes plating the irradiated surface of the plastic substrate to form at least a first metal layer on the at least first accelerator, and then plating the first metal layer to form at least a second metal layer.

Abstract: The proposed invention relates to a method for fluid treatment of wood comprising the steps of placing the wood in an airtight tank, evacuating the airtight tank to establish a vacuum environment for the wood, applying a fluid to the wood. Additionally, the method may further comprise the subsequent step of pressurizing the airtight tank to establish a pressurized environment for the wood. The method may further comprise the subsequent step of subjecting the wood to a subsequent heating, and/or the prior step of subjecting the wood to a prior heating by electromagnetic radiation through one or more electrodes.

Abstract: Metalized plastic substrates, and methods thereof are provided herein. The method includes providing a plastic having a plurality of accelerators dispersed in the plastic. The accelerators have a formula AMxByOz, in which A is one or more elements selected from groups 10 and 11 of the Element Periodic Table; M is one or more metal elements in three plus selected from the group consisting of Fe, Co, Mn, Al, Ga, In, Tl, and rare earth elements; and O is oxygen; and x=0-2, y=0.01-2; z=1-4; and the accelerators further have a formula A?M?mOn, in which A? is one or more elements selected from groups 9, 10, and 11 of the periodic table; M is one or more elements selected from the group consisting of Cr, Mo, W, Se, Te, and Po; and O is oxygen; and m=0.01-2; n=2-4. The method includes the step of irradiating a surface of plastic substrate to expose at least a first accelerator.

Abstract: A method for forming a protective bilayer on a magnetic read/write head or magnetic disk. The bilayer is formed as an adhesion enhancing underlayer and a protective diamond-like carbon (DLC) overlayer. The underlayer is formed of an aluminum or alloyed aluminum oxynitride, having the general formula AlOxNy or MezAlOxNy where Mez symbolizes Tiz, Siz or Crz and where x, y and z can be varied within the formation process. By adjusting the values of x and y the adhesion underlayer contributes to such qualities of the protective bilayer as stress compensation, chemical and mechanical stability and low electrical conductivity. Various methods of forming the underlayer are provided, including reactive ion sputtering, plasma assisted chemical vapor deposition, pulsed laser deposition and plasma immersion ion implantation.

Abstract: This invention relates to a manufacturing method of a liquid discharge head comprising: forming an active energy ray-curable resin layer on a surface of a substrate on which discharge energy generating elements are formed, attaching a material permeable to active energy rays onto a surface of the active energy ray-curable resin layer, pressing against the material permeable to active energy rays, a master mold being transparent to the active energy rays and having protrusions corresponding to a pattern of discharge ports so as to transfer the protrusions to the material permeable to active energy rays, selectively irradiating the active energy ray-curable resin layer with active energy rays according to a pattern of liquid flow paths so as to cure the active energy ray-curable resin layer, removing the master mold, and removing uncured portions of the active energy ray-curable resin layer.

Abstract: A method for forming a ferroelectric spontaneous polarization reversal includes the steps of forming a convexo-concave structure on a top face of a ferroelectric substrate firstly, and then forming a ferroelectric spontaneous polarization region on the substrate including one portion of a convex portion, with a concave portion being formed on the bottom face of the substrate within a region where a ferroelectric spontaneous polarization reversal is to be formed and the convex portion is formed, and then applying an electric field into the substrate. The depth of the concave portion on the bottom face of the substrate may be greater than the height of the convex portion on the top face of the substrate. The width of the concave portion on the bottom face of the substrate may be wider than width of said convex portion on the top face of the substrate.

Abstract: An object of the invention is to provide curable compositions for transfer materials suited for nanoimprinting processes, which compositions have high dry etching resistance against argon gas and high selectivity of dry etching rate between by argon gas and by oxygen gas, and can be fabricated into fine patterns used as resists or the like. A curable composition for transfer materials includes a (meth)acrylate compound having a triazine skeleton which is obtainable by reacting an aminotriazine compound, a compound having a hydroxyl group and a (meth)acryloyl group in the molecule, and an aldehyde.

Abstract: A molding system includes a mold having a base and at least one protuberance extending from the base. The protuberance has an end surface. The system also includes a first photo-catalyst layer on the end surface. The first photo-catalyst layer is configured to at least partially break down a residual layer on a substrate in response to activation of the first photo-catalyst layer by a first radiation.

Abstract: A method for depositing a low dielectric constant film on a substrate is provided. The low dielectric constant film is deposited by a process comprising reacting one or more organosilicon compounds and a porogen and then post-treating the film to create pores in the film. The one or more organosilicon compounds include compounds that have the general structure Si—CX—Si or —Si—O—(CH2)n—O—Si—. Low dielectric constant films provided herein include films that include Si—CX—Si bonds both before and after the post-treatment of the films. The low dielectric constant films have good mechanical and adhesion properties, and a desirable dielectric constant.

Abstract: A polymerizable Norrish Type II photoinitiators includes an optionally substituted benzophenone group or an optionally substituted thioxanthone group exhibiting improved compatibility with and solubility in radiation curable compositions. Radiation curable compositions and inkjet inks can contain these polymerizable Norrish Type II photoinitiators, exhibiting low extractable amounts of the photoinitiators and their residues after curing.

Abstract: The invention provides a method for forming a patterned material layer on a structure, by condensing a vapor to a solid condensate layer on a surface of the structure and then localized removal of selected regions of the condensate layer by directing a beam of energy at the selected regions. The structure can then be processed, with at least a portion of the patterned solid condensate layer on the structure surface, and then the solid condensate layer removed. Further there can be stimulated localized reaction between the solid condensate layer and the structure by directing a beam of energy at at least one selected region of the condensate layer.

Abstract: A method for depositing a low dielectric constant film on a substrate is provided. The low dielectric constant film is deposited by a process comprising reacting one or more organosilicon compounds and a porogen and then post-treating the film to create pores in the film. The one or more organosilicon compounds include compounds that have the general structure Si—CX—Si or —Si—O—(CH2)n—O—Si—. Low dielectric constant films provided herein include films that include Si—CX—Si bonds both before and after the post-treatment of the films. The low dielectric constant films have good mechanical and adhesion properties, and a desirable dielectric constant.

Abstract: The present invention relates to urethane(meth)acrylate resins obtained from the reaction, in a first step, of at least one polyisocyanate (I) with at least one compound (II) containing at least two reactive groups capable to react with isocyanate groups and at least one (meth)acrylate (III) containing essentially one reactive group capable to react with isocyanate groups, and, in a subsequent step, reacting the product obtained from the first step with at least one polyisocyanate (IV) different from the poly-isocyanate (I) used in the first step, and their use for making radiation cured pressure sensitive adhesives.

Abstract: A hollow carbon sphere having a carbon shell and an inner core is disclosed. The hollow carbon sphere has a total volume that is equal to a volume of the carbon shell plus an inner free volume within the carbon shell. The inner free volume is at least 25% of the total volume. In some instances, a nominal diameter of the hollow carbon sphere is between 10 and 180 nanometers.

Abstract: Metalized plastic substrates, and methods thereof are provided herein. The method includes providing a plastic having a plurality of accelerators dispersed in the plastic. The accelerators have a formula ABO3, wherein A is one or more elements selected from Groups 9, 10, and 11 of the Periodic Table of Elements, B is one or more elements selected from Groups 4B and 5B of the Periodic Table of Elements, and O is oxygen. The method includes the step of irradiating a surface of plastic substrate to expose at least a first accelerator. The method further includes plating the irradiated surface of the plastic substrate to form at least a first metal layer on the at least first accelerator, and then plating the first metal layer to form at least a second metal layer.

Abstract: A method for generating spontaneously aligned surface wrinkles utilizes control of local moduli-mismatch and osmotic pressure. The method includes modifying the surface of an elastomeric layer to form a superlayer that is stiffer and/or less absorbent than the elastomeric layer. The elastomeric layer is then swollen with a polymerizable monomer, which causes buckling of the superlayer. The monomer is then polymerized, dimensionally stabilizing the surface buckling. The buckled surfaces generated by the method are useful in a wide variety of end-use applications, including microlenses, microlens arrays, compound microlenses, diffraction gratings, photonic crystals, smart adhesives, mechanical strain sensors, microfluidic devices, and cell culture surfaces.

Abstract: A method of producing three-dimensional bodies which wholly or for selected parts consists of a composite of crystalline or nanocrystalline metal particles in a matrix of amorphous metal. A metal powder layer (4) is applied onto a heat-conducting base (1, 13) and limited areas of the layer is melted successively by means of a radiation gun and cooled so that they can be made to solidify into amorphous metal. In connection with the melting of one or several of the limited areas, the radiation gun is regulated so that the melted area is cooled in accordance with a stipulated time-temperature curve in order to form a composite of crystalline or nanocrystalline metal particles in a matrix of amorphous metal. The method is repeated until a continuous layer, which contains composite metal to a desired extent, is formed. A new powder layer (4) is applied and the method is repeated, the new layer being fused to the underlying layer for successive construction of the three-dimensional body.

Abstract: The present invention relates to particles which have been modified by a modifier and a dispersion medium comprising the modified particles.

Abstract: A device for generatively manufacturing a three-dimensional object (3) is disclosed, comprising: a frame (1), the upper portion (2) thereof surrounds a building field (6); a support (5) which is arranged in the frame (1) and vertically movable at least below the building field (6) by a lift mechanics (4); a radiation device (7) which generates an energetic beam (8, 8?) which is focused to arbitrary points in the building field (6) by a deflection means (9), so as to selectively sinter or melt a powdery material (11) which is present in the building field (6); a coater (10) for applying a layer of a powdery material (11) onto the support (5) or a previously applied layer of the powdery material (11); a housing (100), in which at least the frame (1) and the support (5) are arranged and which surrounds a building space; and a heating device (13; 14; 15; 16) which continuously supplies heat at least to the building field environment or the building space there above.

Abstract: Embodiments of the present invention generally provide a cluster tool 10 that can be used to form electronic circuits on a substrate in an automated fashion. In one embodiment, the cluster tool 10 is adapted to process portions of a substrate to form part of a photovoltaic cell or a green-tape type circuit device in an automated fashion using a system controller 101. In one embodiment, the cluster tool 10 having plurality of work stations that comprise at least one station to deposit a layer on a substrate, a drying oven to dry the substrates, a testing station to test the substrates, and a storage station to store the substrates, and a transport element that is positionable in each of the work stations. A guide defines a substantially closed circuit along which a plurality of transport elements are able to be moved, on each of which at least one of the substrates is disposed.

Abstract: A method of forming a silicon nitride layer is described. According to the present invention, a silicon nitride layer is deposited by thermally decomposing a silicon/nitrogen containing source gas or a silicon containing source gas and a nitrogen containing source gas at low deposition temperatures (e.g., less than 550° C.) to form a silicon nitride layer. The thermally deposited silicon nitride layer is then treated with hydrogen radicals to form a treated silicon nitride layer.

Abstract: A coated string for a stringed device which includes a coating applied to the surface of the string. The coating includes a base layer bonded to the surface of the string and an at least partially transparent low-friction top coat applied to the base layer. The base layer includes heat activated pigments that change color when heated above a color shifting temperature. In one embodiment, the color of the pigment in one area contrasts with the color of the pigment in an adjacent area without otherwise affecting the low-friction surface of the coating. The areas of different color created in locations along the length of the low-friction coated string.

Abstract: A polymerizable Norrish Type II photoinitiator according to Formula (I): . Radiation curable compositions and inkjet inks containing the polymerizable Norrish Type II photoinitiator of Formula (I) exhibit improved compatibility with and solubility in radiation curable compositions and inkjet inks, and exhibit low extractable amounts of the photoinitiator and its residues after curing.

Abstract: The method for depositing a film of the present invention comprises the first film deposition step of depositing a first film 103 having hardness higher than hardness of a substrate 101 on a surface of the substrate 101, the first irradiation step of irradiating particles having energy on the first film 103, and the second film deposition step of depositing an oil-repellent film 105 on a surface of the first film 103 subjected to the first irradiation step. According to the present invention, a method for depositing a film enabling production of an oil-repellent substrate comprising an oil-repellent film having abrasion resistance of a practically sufficient level can be provided.

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: An article has a textured surface comprising locally melted, displaced and resolidified material produced by relative movement of a power beam over the surface. The article further has a wetting-resistant coating formed on the textured surface to make the surface hydrophobic and thereby restrict accumulation of ice.

Abstract: Controllable placement of a liquid adhesive on a substrate to confine the adhesive to a desired area of the substrate is disclosed. A controllable placement method can include dispensing a liquid adhesive into a designated area on a surface of a substrate, controllably confining the dispensed liquid adhesive to the designated area, and curing the confined liquid adhesive. The dispensed liquid adhesive can be controllably confined using various techniques, such as electrical repulsion, electrical attraction, capacitance, electrowetting, light curing, adhesive attracting-repulsing coatings, and substrate topography. A substrate having a controllably placed liquid adhesive thereon can be incorporated into electronic devices, such as a mobile telephone, a digital media player, or a personal computer.

Abstract: A manufacturing method for a flat panel display device includes forming a barrier layer on a flexible plastic substrate by RF sputtering, forming an amorphous silicon layer on the plastic substrate, and subjecting the amorphous silicon layer to a rapid heat treatment so as to thereby improve electrical characteristics and/or homogeneity of the amorphous silicon layer.

Abstract: The process of the present invention significantly increases the durability of superhydrophobic surfaces, while retaining similar optical properties to those of the original surface. The process uses velocity and heat to take freshly formed nano- and ultrafine particles and can partially embed and chemically bond them to the substrate, creating a strongly bonded nano-to-submicron textured surface. This nanotextured surface can then be modified to have desirable surface properties; for example, it can be hydrophobic, oliophobic, or hydrophilic. The high points of the coating made with this process protect the remainder of the surface from abrasion, thus greatly increasing product life in many uses. In preferred embodiments, the process is used to coat transportation vehicle windshields.

Abstract: The cavity has first and second main walls covered by a photoresist. The photoresist is subjected to electronic or electromagnetic radiation of wavelength comprised between 12.5 nm and 15 nm. A first thickness of the photoresist is exposed to form a first area of sacrificial material and a second area of different nature defining the surface coating. The sacrificial material is removed, the surface coating is formed and has a surface against one of the main walls and a free opposite surface. The lateral dimensions of the surface coating are defined in the cavity by the radiation through the first main wall.

Abstract: An apparatus for depositing and curing a curable material on a substrate comprising a deposition means configured to deposit the curable material on the substrate along a deposition path, and a light source configured to direct a beam of light on the deposited curable material to thereby at least partially cure the curable material and thereby prevent it from substantially deforming in shape.

Abstract: A filter, in particular for a rotary separator, is produced using an energy beam melting process, for example an electron beam, starting from powder made from the same material as a porous filtering portion to be formed, for example from a titanium alloy; on the basis of a three-dimensional model comprising a cell structure defining the porous filtering portion, subsequent layers of powder are applied and locally melted, so as to form successive sections of the porous filtering portion; at the end of the forming process, the residual powder is evacuated from the pores.

Abstract: A balloon for a catheter and a method of making the balloon, having a layer of a porous polymeric material with a modified outer surface and a lubricious coating bonded to the modified outer surface. In one embodiment, the modified outer surface is formed by a polymer impregnated in the porous polymeric material, and the subsequently applied lubricious coating bonds to the impregnating polymer. In another embodiment, the modified outer surface is formed by a functionality deposited on the porous polymeric material which bonds to the subsequently applied lubricious coating. The modified outer surface provides an improved strong bond between the lubricious coating and the balloon, for improved catheter performance.

Abstract: An organic light emitting diode (OLED) display device and a method of fabricating the same are disclosed. In one embodiment, the method includes: i) preparing a support and a flexible layer, ii) forming a first metal layers on one side of a support and a second metal layer on one side of a flexible layer, iii) performing a cleaning process to the first metal layer and the second metal layer, iv) forming a first radical layer on the first metal layer and a second radical layer on the second metal layer and v) joining the first and second radial layers to each other. At least one embodiment of the invention enhances process convenience and manufacturing yield, and reduces manufacturing costs and time for a flat panel display device having a flexible substrate.

Abstract: According to one embodiment, an imprint blank includes a substrate layer and a plurality of diamond-like carbon layers. The plurality of diamond-like carbon layers are stacked on the substrate layer, and have a mixture ratio of carbon atoms forming sp2 hybrid orbitals to carbon atoms forming sp3 hybrid orbitals differing between adjacent layers in a stacking direction.

Abstract: The present invention relates to a liquid crystal aligning agent which contains at least one selected from the group consisting of a polysiloxane having a structure represented by the following formula (S-0) and synthesized through the step of hydrolyzing or hydrolyzing/condensing a silane compound in the presence of an alkali metal compound or an organic base, a hydrolysate thereof and a condensate of the hydrolysate: (in the above formula (S-0), R is a group having an alkyl group with 4 to 20 carbon atoms, a fluoroalkyl group with 1 to 20 carbon atoms or a cyclohexyl group, or a group having 17 to 51 carbon atoms and a steroid skeleton, and YI is a hydroxyl group, an alkoxyl group having 1 to 10 carbon atoms, an alkyl group having 1 to 6 carbon atoms or an aryl group having 6 to 10 carbon atoms).

Abstract: Described herein are systems and methods for deposition of films using energy dispensers combined with film-material dispensers. The processes achieve high energy efficiency and speed by deposition of film materials that absorb energy in a designed radiation band, coupled with delivery of energy using a radiation source with a band matched to the absorbance band of the film deposition material. It is possible to use the energy for drying, fusion, chemical conversion, sintering of the deposited materials to produce films for visual, graphic or electronic applications. The process does not cause significant heating of substrates. The energy can be delivered to specified material deposition locations, thus using substantially less energy than bulk heating.

Abstract: A system and method for depositing coatings on an inner surface of a tubular structure includes at least one pump for creating and maintaining a vacuum in the tubular structure, a meshed electrode adapted to be positioned in a center of the tubular structure, and a biased voltage power supply connected to the meshed electrode. The biased voltage power supply is adapted to apply a negative voltage to the meshed electrode such that the negative voltage causes a hollow cathode discharge inside the meshed electrode. The creation of the hollow cathode discharge causes ions to be drawn out of a mesh on the meshed electrode and accelerate onto an inner surface of the tubular structure, thereby coating the inner surface with a desired coating.

Abstract: Methods and systems disclosed herein involve conversion of precursors to electronic films with many properties such as conductor, resistor, semiconductor, photovoltaic, insulator and optical conversion films. There are a large number of materials such as transition metal oxides, metals, combination oxides that may be deposited as organic precursors and subsequently processed by radiated energy. In practice of the systems and methods disclosed herein, the films are processed by a “matched” radiation to either intrinsic absorption of the film precursors, or due to an added absorber to the film precursors. Since many of the precursors have been previously described as “Metal-Organic” precursors, the process can be described as “Metal-Organic Deposition by Enhanced Light-Absorption” (MODEL-A).