Abstract: A method for producing an electrode, in particular a negative electrode of an electrochemical cell, comprising the steps of: pretreatment, in particular cleaning, of a metallic substrate, drying the pretreated metallic substrate and/or an active material, and coating the pretreated metallic substrate with the active material, wherein said pretreatment of the surface of the metallic substrate involves an organic acid.

Abstract: The invention provides a method of producing a solid material, and the method includes: applying a light coloring substance to at least one of an inner surface of a die bore, an upper end surface of a lower punch, and a lower end surface of an upper punch; filling a powdery material in the die bore; compression molding the powdery material filled in the die bore with use of the upper punch and the lower punch; and irradiating with light a molded product obtained by the compression molding to color the molded product.

Abstract: A micro-conformal nanoimprint lithography template includes a backing layer and a nanopatterned layer adhered to the backing layer. The elastic modulus of the backing layer exceeds the elastic modulus of the nanopatterned layer. The micro-conformal nanoimprint lithography template can be used to form a patterned layer from an imprint resist on a substrate, the substrate having a micron-scale defect, such that an excluded distance from an exterior surface of the micron-scale defect to the patterned layer formed by the nanoimprint lithography template is less than a height of the defect. The nanoimprint lithography template can be used to form multiple imprints with no reduction in feature fidelity.

Abstract: The present invention relates to an improved microplate which is constructed of at least one frame part and at least one bottom part, where the bottom part has a maximum thickness of 500 ?m.

Abstract: A method of making a charge dissipative surface of a dielectric polymeric material with tunable (selectable) surface resistivity, comprises the step of controllably carbonizing the surface of the polymeric material in a vacuum environment by bombarding the polymeric surface with an ion beam of rare gas ions, the energy level of the ion source being from 2.5 to 30 keV, in the fluence range 1E16-5E17 ion/cm2 so as to reach a surface resistivity in the static dissipative range of 1E6 to 1E9 ohm/square at room temperature, with a temperature dependence of less than three orders of magnitude between ?150° C. and +150° C., while having no impact on the RF performance of the material, with high RF power handling capability, and with tunable thermo-optical properties of the surface, including negligible impact on the thermo-optical properties and RF performance of the material, if required by applications.

Abstract: A method of manufacturing an engraved plate used in intaglio printing, said plate being engraved by a tool, for example a laser beam, characterized in that the engraving tool uses data from a depth-map, based on a three-dimensional raster image of the document to be printed.

Abstract: The present invention provides a method of repairing a display panel and signal lines of the display panel. The method comprises: arranging a repairing line in a different layer with the signal line; arranging a transparent conductive layer above an intersectionally-overlapped area of the repairing line and the signal line, a melting point of the transparent conductive layer is lower than that of the signal line and the repairing line, and using laser beams to melt the transparent conductive layer to connect the signal line and the repairing line when repairing the broken signal line. The present invention arranges an additional transparent conductive layer with a lower melting point on an overlapped area of a repairing line and a signal line and uses the laser beams to melt the transparent conductive layer to connect the repairing line and the signal line, thereby increasing repairing possibility as repairing the signal line.

Abstract: The present invention relates to a method of fabricating a painted substrate (30) using powder paint (21). The substrate is electrically insulating. The method includes the following steps performed in succession: a) a treatment coating (10) is placed on a mold (1), the treatment coating (10) includes at least one preparation layer having a release agent (15, 15?) in contact with the mold (1); b) the treatment coating (10) is electrostatically covered with powder paint (21) in such a manner that the powder paint (21) is attracted towards the mold (1) and is held against the treatment coating (10); c) the powder paint (21) is transformed at least in part in order to obtain a layer (20) of powder paint (21); and d) the substrate (30) is prepared on the layer (20) of powder paint to form the painted substrate.

Abstract: A process and an apparatus for performing a UV nano-imprint lithography are provided. The process uses a polymer pad which allows a uniform application of pressure to a patterned template and an easy removal of a residual resin layer. The apparatus includes a tilt and decentering corrector which allows an accurate alignment of layers during the nano-imprint lithography process.

Abstract: Disclosed is a heat radiation plate for a battery module, which can effectively radiate heat accumulated in a battery module, and the battery module having the heat radiation plate. To this end, the heat radiation plate is inserted in an interlayer manner between battery cells. The heat radiation plate includes high-polymer matrix layers and a filler layer inserted in an interlayer manner between the high-polymer matrix layers, in which the filler layer is made of a conductive fiber having a three-dimensional (3D) web structure.

Abstract: An imprint apparatus molds a resin on a substrate with a mold and cures it by irradiation with a light to form a pattern on the substrate. This imprint apparatus includes an light irradiation unit configured to irradiate the light, and a mold holding unit configured to hold the mold, and at which an opening is formed to allow passage of the light irradiated from the light irradiation unit toward the substrate via the mold. Here, at least a portion of the surface of the mold holding unit which a reflected light that is reflected by at least either the substrate or the mold is can be incident has a reflectance that is lower than the reflectance of the surface of the mold relative to the light that is irradiated from the light irradiation unit.

Abstract: A process for the production of a core that can be used for the manufacturing of a part that is made of composite material, whereby the core consists of at least one powdered and/or granular product (16), includes introducing the at least one powdered and/or granular product (16) by vibrating it in an outer envelope (14) placed in a device (18) having a cavity that is delimited by a wall (20) whose geometry is adapted to that of the core to be produced and flattening the outer envelope (14) against the wall (20), characterized in that vibrations are emitted slightly above the fill level during filling.

Abstract: An in-mold roller (IMR) manufacturing method is provided, including the following steps: providing a forming mold, which includes a female mold member and a male mold member mating the female mold member, the female mold member being provided with a pattern structure; providing an IMR film to an injection molding machine; providing an injectionable material; depositing the injectionable material and the IMR film in the forming mold; and performing injection molding operation to mold a casing carrying texture corresponding to the pattern structure. A casing manufactured with the IMR manufacturing method is also provided.

Abstract: The invention relates to a method and a device for modifying in a spatially periodic manner at least in some regions a surface of a substrate (24), said surface being disposed on a sample plane (P) for which end different regions (211, 221, 231, 232) of the substrate surface are acted upon successively with a spatially periodic illumination pattern of an energy density above a processing threshold of the substrate surface, where the illumination pattern is generated by diffraction of an input beam (10) and superimposition of resulting, diffracted sub-beams (12, 14) by means of a grid interferometer (100), and where, in order to select the substrate surface region to be illuminated in each case (211, 221, 231, 232), the input beam (10) is deviated by means of a beam-deviating unit (16) arranged upstream of the grid interferometer (100).

Abstract: A plastic shell with ink-free pattern and its manufacturing method thereof are provided. The manufacturing method includes a step of providing a multilayered film with ink-free pattern, a step of adhering a protective layer of the multilayered film on a surface of a plastic shell body, and a step of performing a laser engraving procedure to present a relief pattern on a surface of the protective layer.

Abstract: The present invention relates to a scratch-resistant micro- and/or nanostructured surface comprising a plurality of micro-scale and/or nano-scale surface elements, said surface being essentially unchanged when being subjected to 10 rubbing cycles according to A.A.T.C.C. test method 8-1972 using a cotton cloth and a total stamp weight of 300 g, and comprising a polymeric material having 1) an elongation at break of at least 10%, 2) an irreversible relative plastic deformation (permanent set) of less than 2% and a 3) a tensile strength of at least 5 MPa. The present invention furthermore relates to a hydrophobic micro- and/or nanostructured surface comprising a plurality of micro-scale and/or nano-scale surface elements and having a static contact angle against water of at least 90, said surface comprising a polymeric material having 1) an elongation at break of at least 10%, 2) an irreversible relative plastic deformation (permanent set) of less than 2% and a 3) a tensile strength of at least 5 MPa.

Abstract: Method for moulding a receptacle (2) starting from a parison (3) of plastic material, comprising the steps of: positioning the parison (3) inside a mould (5); progressively introducing a stretching rod (8) into the parison (3) until it reaches a bottom thereof; injecting pressurised air into the parison (3), passing radiation through the stretching rod (8), in order to sterilise the inner walls of the parison (3).

Abstract: An adhesive composition comprising as principal components, a polymerizable component, an ambient temperature radical polymerization catalyst system and a photoinitiator. The adhesive may optionally comprise an adhesion promoter, a toughener, an epoxy, and a filler material. Further, a two-part reactive adhesive comprising, a first part comprising, (i) at least one free radical-polymerizable monomer, (ii) at least one reducing agent, and (iii) a photoinitiator, and a second part comprising an oxidizing agent that is reactive at ambient temperature with the reducing agent to produce free radicals that are capable of initiating and propagating free radical polymerization.

Abstract: The present invention relates to a method of producing activated color regions in a web substrate where activated color regions are formed coinciding with deformed regions. The method includes providing a web substrate having an activatable colorant and producing a first activated color region therein. The web substrate is mechanically deformed to produce at least one deformed region in the first activated color region such that a second activated color region is produced coinciding with the at least one deformed region.

Abstract: An imprinting method is capable of separating a molding material and a target material rapidly in pattern formation. The imprinting method includes a transferring process for transferring an inverted pattern of a mold 10 having a desired pattern formed thereon to a resist 30 by pressing the mold 10 against the resist 30; a curing process for curing the resist 30 by heating or irradiating light; and a separating process for separating the mold 10 from the resist 30 after the resist 30 is cured through the transferring process. The separating process includes a pulling process for pulling the mold 10 away from the resist 30 in a direction opposite to a direction in which the resist 30 is pressed; and a pushing process for pushing the resist 30 in the same direction as a direction in which the mold 10 presses the resist 30.

Abstract: A method for manufacturing a substrate with surface substrates by employing photothermal effect is described. Nanoparticles on the surface of the substrate excited by a beam convert light energy to thermal energy. The surface structure on the substrate is formed through the thermal energy generated by the excited nanoparticles. The substrate with plural pores is thus formed.

Abstract: Method for treating a plastic part, which comprises a surface, comprising the steps: A) irradiating at least a part of the surface with a treatment radiation to obtain a modified surface area, the modified surface area being capable of absorbing a heating radiation to an extent greater than the unmodified surface area, and B) irradiating the modified surface area with the heating radiation at least in a section so that the plastic part is heated and softened in a region defined by the irradiated section of the modified surface area.

Abstract: The disclosed technology relates to a colorful liquid crystal thin film, a method of thereof and a display device. An embodiment of the method of manufacturing a colorful liquid crystal thin film comprises: adjusting a voltage applied across a liquid crystal cell filled with blue phase liquid crystal until the liquid crystal cell shows a required color; and radiating a portion of the liquid crystal cell needed to show the required color by ultraviolet rays.

Abstract: A method for modulating roughness of a surface, comprising: providing a first pre-stressed electrically conductive layer (10) coupled to a dielectric elastic foundation (20) provided over a second conductive layer (30); and subjecting the two conductive layers to a voltage difference, thereby modulating the roughness of the first surface.

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: It's object is to provide a (meth)acrylate compound excellent in photocurability, a curable composition comprising the compound and excellent in all of pattern accuracy, peelability, surface hardness, elasticity recovery and solvent resistance, an optical nanoimprint composition and a cured product of the curable composition and a method for producing it, especially to provide a composition favorable for a permanent film for flat panel displays, etc. A (meth)acrylate compound represented by the following formula (1): wherein R1 represents a hydrogen atom or a methyl group, R2 represents a substituent having carbon atoms of 2 to 6 and having a carbon-carbon double bond, X represents an organic group having carbon atoms of 1 to 10, m and n each are an integer of 1 to 3.

Abstract: A method is provided for removing a resin layer of a resin-coated metal tube. The resin layer is removed with a laser beam. More particularly, the resin layer of a desired range is burned out by focusing the laser beam into a pinpoint without defocusing the sectional shape of the laser beam in the axial direction o the resin-coated metal tube.

Abstract: There is disclosed a method and apparatus for producing a polymeric film that accurately replicates a mold surface at least a portion of which surface has a complex pattern of microstructured or nano-structured dimensions. A polymeric powder is electrodeposited on an underlying mold surface and heated to its molten state to replicate a pattern on the mold surface. Then the powder can be cured to create a polymeric film. Finally the film is removed from the mold surface.

Abstract: According to one embodiment, a method for manufacturing a master disk for discoid patterned medium having a plurality of sectors arranged in a circumferential direction, the plurality of sectors including a recording data portion and a servo data portion that includes a sector identification region having gaps formed in a linear pattern is provided. An imprint master disk having a linear pattern which is common to the sectors before the gaps are formed in the sector identification region and including at least one pattern of the sector is prepared, imprinting is repeated in the circumferential direction by using the imprint master disk to form patterns of a discoid patterned medium on a substrate, and a sector identification pattern is formed in each sector by forming gaps in the linear pattern of each sector identification region among the patterns formed on the substrate.

Abstract: A pattern transfer method for filling a surface on a template having a concave-convex pattern with a resist material has contacting the template with the resist material applied on a substrate, curing the resist material while contacting the template with the resist, electrically charging the template and the resist with an identical polarity, and removing the template from the resist material while eclectically charging the template and the resist with an identical polarity.

Abstract: A method for producing plastic moldings with a distinct grain/three-dimensional surface structure by grain-imparting negative thermoforming. The plastic molding is subjected to a preheating, and the molding is then pressed into/onto a negative mold that is formed with the negative of the three-dimensional surface structure to be applied. Those portions of the plastic molding that face away from the grain side are subjected to electron beam crosslinking before or during the preheating and the grain-imparting negative thermoforming.

Abstract: A process and an apparatus for performing a UV nano-imprint lithography are provided. The process uses a polymer pad which allows a uniform application of pressure to a patterned template and an easy removal of a residual resin layer. The apparatus includes a tilt and decentering corrector which allows an accurate alignment of layers during the nano-imprint lithography process.

Abstract: A method for repair and preventive maintenance of railroad ties by application of a polymer system to the surface of the rail seat. The polymer system is cured by irradiation with ultraviolet light to fully cure or partially cure the polymer. The polymer system may be used in conjunction with a tie pad that is capable of transmitting ultraviolet light to permit curing of the polymer.

Abstract: A golf ball having a polymer layer that has been subjected to impregnation treatment with an isocyanate and/or isothiocyanate-containing olefin compound exhibits at least one improved golf ball attribute, such as scuff resistance or spin performance, compared with an original golf ball that has not been treated by impregnation.

Abstract: A method for replicating a pattern, comprising: (a) providing a patterned template comprising a patterned template surface having a plurality of recessed or protruded areas formed therein; (b) contacting a volume of a curable perfluoropolyether composition [composition (C)] with the patterned template surface, the composition C comprising: at least one functional perfluoropolyether compound [compound (E)] which comprises a (per)fluoropolyoxyalkylene chain [chain (Rf)], wherein the molecular weight of the chain Rf is more than 1000 and less than 3500, and at least two unsaturated moieties; and at least one photoinitiator; (c) submitting to UV radiations the composition (C) to yield a mold comprising a patterned mold surface, and separating the mold from the patterned template; (d) contacting the patterned mold surface with a (pre)polymer composition [composition (P)]; (e) processing the composition (P) to yield an article having a patterned surface, and separating the article from the mold.

Abstract: The invention relates to a mould for producing multilayer plastics mouldings composed of at least two mould halves and of a cavity within which plastic is received, and of a feed system with a feed channel, and also to a process for producing multilayer plastics mouldings.

Abstract: A method of manufacturing a display device in which a film deposited on a substrate through openings in a covering layer is easily removed from the covering layer, is described herein, includes forming a master layer having a predetermined pattern of openings on a base substrate; spraying a light shielding material on the master layer; fabricating a mold provided with the light shielding film by forming a moldable material layer on the base substrate and the master layer; the moldable material layer and the light shielding material; arranging, pressurizing, and exposing the mold on an insulation substrate having a photosensitive film formed thereon after separating the mold from the master layer; and developing the photosensitive film after separating the mold from the insulation substrate.

Abstract: The present invention provides a method for forming concave-convex pattern corresponding to a nanoimprint method which is advantageously utilized in the preparation of electronic devices, optical parts and recording media, and enabling the preparation of the product having the fine pattern mentioned above in cheapness and high speed.

Abstract: A substrate having a pattern of two or more materials exhibiting different grafting efficiencies for a temperature-responsive polymer that varies its interaction with water in a temperature range of 0 to 80° C. by electron beam irradiation under the same conditions is grafted with the temperature-responsive polymer by simultaneously irradiating the surfaces of the materials with electron beams to obtain a temperature-responsive cell culture substrate. According to this method, a temperature-responsive cell culture substrate having a surface (1) that allows cells to adhere thereto and to grow thereon during cell culturing and that allows the adhering and grown cells to be detached therefrom by changing the culturing temperature and a surface (2) that does not allow the cells to adhere thereto at all can be obtained by a simple process.

Abstract: The invention relates to a light guide (10), a patterned light emitting diode device, to an illumination system (100) and to a method of generating a light guide and/or patterned light emitting diode device. The light guide comprising a light-emitting window (20), a rear wall (22) situated opposite said light-emitting window, edge walls (24) extending between the light-emitting window and the rear wall. The light guide further comprises a deformable substantially transparent layer (30) arranged between a light-reflective layer (40) and the rear wall of the light guide. The light-reflective layer comprises a pattern (42) constituted of local deformations (42A, 42B) of the light-reflective layer for scattering impinging light.

Abstract: A method of forming a nanostructured surface, the method comprising including providing an original nanostructured surface having an array of high aspect ratio structures formed on a planar substrate; forming a negative replica mold of the original nanostructured surface, wherein the negative replica mold comprises a flexible material; deforming the negative replica mold; and using the deformed negative replica mold to form a deformed replica of the original nanostructured surface, wherein the deforming step is performed at least one of before, during, or after introducing a material for forming the deformed replica into the negative replica mold.

Abstract: A method for producing a sensor element, wherein at least parts of the sensor element are subjected to at least one plasma treatment process during production. The plasma treatment process may be either a plasma cleaning process and/or a plasma activation process. During the plasma treatment process, a base element and/or a carrier element of the sensor element is subjected to a plasma treatment process before a placement process and/or before a contact-connecting process with electrical connection means. The sensor element is equipped with at least one measurement probe element and/or at least one electronic circuit. This method is used to produce a sensor element, such as a speed sensor element, that may be used in a motor vehicle.

Abstract: A method of forming a nanoscale pattern on a substrate surface. In one embodiment, the method includes the steps of providing a substrate having a surface; providing a nanoscale pattern forming device, comprising an elongated cantilever that has a tip portion proximate an end of the elongated cantilever; and controllably illuminating at least the tip portion of the cantilever with a beam of substantially coherent monoenergetic particles when the cantilever moves relative to the substrate to form a nanoscale pattern on the surface, wherein the tip portion of the cantilever is made from lightly doped silicon.

Abstract: Apparatuses, systems, and methods for surface modification of catheters. The surface modification can be localized to a lumen surface of the catheter. The surface modification to the lumen surface extends radially into the catheter body a predetermined distance to provide a hardened zone having a hardness that is greater than a hardness of an exterior surface of the catheter body.

Abstract: A method for the production of an electrically insulating cast body having one or more electronic components that are arranged in a plastic casting chamber (214) that is filled with an electrically insulating casting compound, wherein the wall surfaces of a partial cavity (221) of the casting chamber are pretreated in such a way that the adhesion of the casting compound to the wall surfaces of the partial cavity (221) differs substantially from the adhesion of the casting compound to the wall surfaces of the remaining cavity (217).

Abstract: Imprint templates for use in nanoimprint lithography methods, a nanoimprint device suitable for UV nanoimprint lithography methods and a nanostructuring method for direct structuring of a UV-sensitive imprint material on a substrate are provided. The imprint templates, nanoimprint device and nanostructuring method can be used both for ultraviolet nanoimprint lithography and for thermal nanoimprint lithography. The imprint template includes a nontransparent structured chip and a transparent substrate. An at least partially nontransparent imprint template as well as a UV source situated above the imprint template holder are used for structuring by indirect exposure by reflection of light emitted from the UV radiation source in the direction of a photoactive layer.

Abstract: The present invention relates to a method of fabricating a painted substrate (30) using powder paint (21), said substrate being electrically insulating, during which method the following steps are performed in succession: a) a treatment coating (10) is placed on a mold (1), said treatment coating (10) including at least one preparation layer (11, 12) based on an unmolding agent (15, 15?) in contact with said mold (1); b) said treatment coating (10) is electrostatically covered with powder paint (21) in such a manner that said powder paint (21) is attracted towards said mold (1) and is held against the treatment coating (10); c) said powder paint (21) is transformed at least in part in order to obtain a sheet (20) of powder paint (21); and d) said substrate (30) is prepared on said sheet (20) in order to obtain said painted substrate.

Abstract: The lighting apparatus includes a light source, a housing that contains the light source inside and has an exit port for outputting light from the light source, and an optical sheet that is placed in the exit port. The optical sheet includes a lens structure that is placed at a light exit side and aligns an output direction of incident light from the light source, a reflector that is placed at a light incident side and reflects light emitted by the light source, and a light transmitting opening that exists in the reflector and transmits incident light from the light source. The light transmitting opening is placed in a position deviated from an optical axis of the lens structure. The display apparatus includes the lighting apparatus.

Abstract: The invention relates to a device for hot embossing of a magnetic nanoparticle (N)-containing polymer layer and a method for hot embossing of a magnetic nanoparticle-containing polymer layer.

Abstract: An improved method of imprint lithography involves using field-induced pressure from electric or magnetic fields to press a mold onto a substrate having a moldable surface. In essence, the method comprises the steps of providing a substrate having a moldable surface, providing a mold having a molding surface and pressing the molding surface and the moldable surface together by field-induced pressure from electric or magnetic fields to imprint the molding surface onto the moldable surface. The molding surface advantageously comprises a plurality of projecting features of nanoscale extent or separation, but the molding surface can also be a smooth planar surface, as for planarization. The improved method can be practiced without mechanical presses and without sealing the region between the mold and the substrate.