Abstract: A method of bonding a metal to a substrate involves forming a plurality of nano-features in a surface of the substrate, where each nano-feature is chosen from a nano-pore and/or a nano-crevice. In a molten state, the metal is over-cast onto the substrate surface, and penetrates the nano-features. Upon cooling, the metal is solidified inside the nano-features, where the solidification of the metal forms a mechanical interlock between the over-cast metal and the substrate.

Abstract: A method of producing coloured portions on a tyre, the method including the steps of: producing a highly impermeable protective layer by depositing a water-based emulsion on a tyre part to be coloured; and applying a water-based paint to the protective layer. The water-based emulsion has at least a cross- linkable polymer base, and a surface-active agent of molecular formula (I) (R1CONR2CHR3COO?)n Xn+(I) where: R1 is an aliphatic group C6-C23, R2 is H or an aliphatic group C1-C8, R3 is H or an aliphatic or aromatic group C1-C8, X is a metal cation, preferably an alkaline cation, and n is an integer of 1 to 3.

Abstract: A compound (2), and a process to polarize it, are described able to form conductive or isolating tracks. The compound comprises a substrate of solvent, and a dispersion in the substrate. The dispersion comprises (i) a polymer (M) with double covalent conjugated bond, that is to say a heterocyclic compound formed of n atoms of carbon and an atom of a different type linked in a loop structure; and (ii) functionalising elements (Q1) of the polymer, so that the state of the polymer changes from insulator to conductor and vice versa when struck by an electromagnetic field.

Abstract: A method for forming a flexible printed circuit board is provided. First, an insulating substrate with a first side and a second side is provided. Second, a through hole connecting the first side and the second side is formed in the insulating substrate. Then, a printing step is carried out to print a conductive precursor which is on the first side and cover and fill the through hole. Later, the conductive precursor is cured to form a conductive composition and to simultaneously form a circuit to obtain a flexible printed circuit board. The conductive composition includes at least one of carbon and silver.

Abstract: The present invention provides a liquid crystal display device capable of reducing the number of steps and material costs and a method of producing the liquid crystal display device. A liquid crystal display device (100) of the present invention includes a liquid crystal display panel (105); and a touch panel (106). Out of the liquid crystal display panel (105) and the touch panel (106), one panel serves as a reference for alignment between the liquid crystal display panel (105) and the touch panel (106) and the other panel is aligned with the one panel. The other panel is provided with a second alignment mark that is aligned with a first alignment mark of the one panel. The second alignment mark is constituted by a transparent member.

Abstract: A system having a print head for depositing material on a piezoelectric array, where the print head and array are moveable with respect to each other, and a computer for controlling movement of the print head and array with respect to each other to locations along the array, and controlling the print head to dispense the material onto the array at such locations. The print head deposits a pre-determined amount of material in one of dots, or in a line with movement of the print head and array with respect to each other. The system enables deposit of conductive material for electrical connections to array elements. Non-conductive polymer material may be deposited on the array before depositing conductive material to create barriers avoiding unintended connection of array elements by the conductive material. The system may also be used for fabricating a piezoelectric array by depositing electro-ceramic material.

Abstract: Disclosed herein is a method for manufacturing a printed circuit board. The method for manufacturing a printed circuit board includes: preparing a base substrate having first connection pads and second connection pads; forming a solder resist layer on the base substrate, the solder resist layer having a first opening for exposing the first connection pads; forming a first surface treatment layer on the first connection pads; forming a protective film on the solder resist layer; forming a second opening for exposing the second connection pads in the protective film and the solder resist layer; and forming a second surface treatment layer on the second connection pads.

Abstract: A sample analysis disc has concave sections and convex sections formed alternately in a track area of a disc surface. Labeled beads are immobilized to the track area. Each labeled bead has a biopolymer bound thereto. Only one of the labeled beads is allowed to be filled in each concave section.

Abstract: A method of providing a decorative laminate board is provided. The method includes providing a board having a decorative upper surface, treating a portion of the decorative upper surface with a laser for embossing the decorative upper surface, and coating the laser treated portion of the decorative upper surface.

Abstract: Thermoplastic compositions that are capable of being used in a laser direct structuring process to provide enhanced plating performance and good mechanical properties. The compositions of the present invention include a thermoplastic base resin, a laser direct structuring additive and a white pigment. The compositions can be used in a variety of applications such as personal computers, notebook and portable computers, cell phone antennas and other such communications equipment, medical applications, RFID applications, and automotive applications.

Abstract: Thermoplastic compositions that are capable of being used in a laser direct structuring process to provide enhanced plating performance and good mechanical properties. The compositions include a thermoplastic base resin, a laser direct structuring additive, and a mineral filler. The compositions can be used in a variety of applications such as personal computers, notebook and portable computers, cell phone antennas and other such communications equipment, medical applications, RFID applications, and automotive applications.

Abstract: An article includes a cover tape, which includes a base film layer, tear enabling features, and an adhesive. The base film layer has opposed longitudinal edges and top and bottom surfaces. The tear enabling features are substantially parallel to the longitudinal edges and at the top and bottom surfaces.

Abstract: [Object] To provide a method for producing a vehicle window glass pane that possesses both a solar radiation energy blocking function and a radio wave transmitting function. [Means for achieving the Object] A method for producing a vehicle window glass pane on which an infrared reflective film is formed by a vacuum film forming method, which is characterized by having a process in which an edge portion of an infrared reflective film having a radio wave transmissible window produced by using a masking member is removed by dry etching, and further characterized in that the dry etching is carried out by using a grindstone or a laser.

Abstract: A circuit board including a circuit substrate, a first dielectric layer, an antagonistic activation layer, a first conductive layer, a second conductive layer and a second dielectric layer is provided. The circuit substrate has a first surface and a first circuit layer. The first dielectric layer is disposed on the circuit substrate and covers the first surface and the first circuit layer. The first dielectric layer has a second surface, at least a blind via extending from the second surface to the first circuit layer and an intaglio pattern. The antagonistic activation layer is disposed on the second surface of the dielectric layer. The first conductive layer is disposed in the blind via. The second conductive layer is disposed in the intaglio pattern and the blind via and covers the first conductive layer. The second conductive layer is electrically connected with the first circuit layer via the first conductive layer.

Abstract: The invention provides methods and apparatuses for making an artificial, amphiphilic bilayer using aqueous micro-droplets (1-1,000 um dia) in a water-immiscible solvent, wherein immediately surrounding each droplet is a monolayer of amphiphilic molecules; the general method comprising: juxtapositioning the droplets with a focused laser beam such that the monolayers merge to create a bilayer of the amphiphilic molecules between the droplets.

Abstract: The present invention relates to a method of realizing an optical function on a component of a motor vehicle indicating or lighting device. This method is more particularly suited to producing a mask for a headlamp or light and/or to treating reflective surfaces. The method comprises a step of forming said component in a predetermined material and a step of exposing at least one surface of said component to laser radiation.

Abstract: A method for manufacturing a printed wiring board includes preparing a core substrate having a first surface and a second surface on the opposite side of the first surface, forming on the first-surface side of the substrate a first opening portion tapering from the first toward second surface, forming on the second-surface side of the substrate a second opening portion tapering from the second toward first surface, forming a third opening portion such that a penetrating hole formed of the first opening portion, the second opening portion and the third opening portion connecting the first and second opening portions is formed in the substrate, forming a first conductor on the first surface of the substrate, forming a second conductor on the second surface of the substrate, and filling a conductive material in the penetrating hole such that a through-hole conductor connecting the first and second conductors is formed.

Abstract: A method for printing conductive lines on a substrate includes printing a pattern of conductive material (204) on the substrate to; and sintering a first part of the pattern of conductive material.

Abstract: The present disclosure relates to methods and systems for synthesis of bridged-hydropentacene, hydroanthracene and hydrotetracene from the precursor compounds pentacene derivatives, tetracene derivatives, and anthracene derivatives. The invention further relates to are methods and systems for forming thin films for use in electrically conductive assemblies, such as semiconductors or photovoltaic devices.

Abstract: A method of forming an electrochemical test sensor includes providing a base. Electrochemically-active material is placed on the base. Dielectric material is applied over the electrochemically-active material. A first selected area of the dielectric material is laser-ablated to expose the electrochemically-active material. A second selected area of the dielectric material and the electrochemically-active material are laser-ablated to expose the base. The first selected area is different from the second selected area. A second layer is applied to assist in forming a channel in the test sensor. The channel assists in allowing a fluid sample to contact a reagent located therein. The dielectric material is located between the base and the second layer.

Abstract: The present invention provides: a pigment dispersion composition including (A) an organic pigment, (B) a pigment derivative represented by Formula (I) below and (C) a polymer compound having a pigment-adsorptive functional group; a curable color composition including the pigment dispersion composition, a polymerizable compound and a polymerization initiator; and a color filter having a color region formed using the curable color composition and a method for producing the same. Q represents an organic colorant residue; A represents an ethylene group or the like; and R represents a hydroxyl group or a group represented by —NH-A-Z; Z represents —SO3H, —COOH or a salt thereof; and n represents an integer of from 1 to 4. When R represents —NH-A-Z, the structures represented by the two —NH-A-Zs bonded to the triazine ring contained in each of the n partial structures bonded to Q may be the same as each other or different from each other.

Abstract: In a method for processing a nanotube, a vapor is condensed to a solid condensate layer on a surface of the nanotube and then at least one selected region of the condensate layer is locally removed by directing a beam of energy at the selected region. The nanotube can be processed with at least a portion of the solid condensate layer maintained on the nanotube surface and thereafter the solid condensate layer removed. Nanotube processing can include, e.g., depositing a material layer on an exposed nanotube surface region where the condensate layer was removed. After forming a solid condensate layer, an electron beam can be directed at a selected region along a nanotube length corresponding to a location for cutting the nanotube, to locally remove the condensate layer at the region, and an ion beam can be directed at the selected region to cut the nanotube at the selected region.

Abstract: The invention relates to a method for producing a ceramic component, a ceramic component, and a component assembly having a ceramic component and a connection component. The method according to the invention for producing a ceramic component (1) comprises the steps: a) providing a ceramic substrate (2), wherein a conducting path (3) is arranged in the interior and/or on the surface of the ceramic substrate (2), and at least some regions of the ceramic substrate (2) are covered by a glaze (5); b) creating a contacting opening (6) in the glaze (5) in a region of a contact region (15) of the conducting path (3) to be contacted; c) applying a metallic layer (7) in the region of the contacting opening (6) for contacting the conducting path (3) in the contact region (15).

Abstract: The present invention relates to a method of producing a (shaped) ceramic or glass-ceramic article, involving the steps of: (a) providing a powder or a powder mixture comprising ceramic or glass-ceramic material, (b) depositing a layer of said powder or powder mixture on a surface, (d) heating at least one region of said layer by means of an energy beam or a plurality of energy beams to a maximum temperature such that at least a part of said ceramic or glass-ceramic material in said at least one region is melted and (e) cooling said at least one region of said layer so that at least part of the material melted in step (d) is solidified, such that the layer is joined with said surface in said at least one region. The invention also relates to ceramic or glass-ceramic articles and their use.

Abstract: An embedded wiring board includes an upper wiring layer, a lower wiring layer, an insulation layer, a first conductive pillar and a second conductive pillar. The upper wiring layer contains an upper pad, the lower wiring layer contains a lower pad, and the insulation layer contains an upper surface and a lower surface opposite to the upper surface. The upper pad is embedded in the upper surface and the lower pad is embedded in the lower surface. The first conductive pillar is located in the insulation layer and includes an end surface which is exposed by the upper surface. A height of the first conductive pillar relative to the upper surface is larger than a depth of the upper pad relative to the upper surface. In addition, the second conductive pillar is located in the insulation layer and is connected between the first conductive pillar and the lower pad.

Abstract: The present invention provides a method for forming a micro-retarder film. The method comprises utilizing a tension-assisted rolling process for a microstructure phase film layer to form a microstructure phase film pattern with a plurality of openings and a plurality of phase retarder patterns. Next, a homogeneous material layer is formed on the microstructure phase film pattern. Finally, a transmutation treatment is applied for backside of the microstructure phase film pattern.

Abstract: A barcode (4) is formed on a cardboard (2) by laser marking, and a groove (22) communicating a space (42) in the barcode (4) is formed in the cardboard (2). The groove (22) has a depth which is 1/7 or more of an error in resolution of a barcode reader.

Abstract: A security document precursor including one or more lamellae provided with two or more holes near a perimeter edge surface of the precursor, wherein the holes perforate the largest surface of the one or more lamellae, and wherein at least one of the holes is filled with a coloured material which differs in colour from at least one of the one or more lamellae, such that the coloured material is visible from a direction perpendicular on the perimeter edge surface; wherein at least one of the one or more lamellae is transparent or translucent: or wherein at least one of the one or more lamellae is opaque and the opaque part of the at least one of the one or more lamellae between the perimeter edge and the hole filled with a coloured material has been removed. A security document and a method of preparing the security document precursor are also disclosed.

Abstract: An apparatus for processing a substrate includes an inspection system disposed in a first position to detect the location and orientation of the substrate supported on a supporting surface of a processing nest positioned in the first position and one or more processing heads disposed in the second and third positions and configured to perform a first and a second process on the substrate when the processing nest is moved to the second and third positions by an actuator assembly. A method for processing a substrate includes detecting the location and orientation of the substrate disposed on the processing nest which is positioned in the first position and aligning one or more processing heads to the substrate when the processing nest is positioned in the second and third positions and under the processing heads using data detected by an inspection system positioned in the first position.

Abstract: An aqueous marking composition is described which upon application to a polymeric surface and laser irradiation, produces one or more marks or other indicia having high contrast in the polymeric surface.

Abstract: A method for manufacturing a printed wiring board including forming a penetrating hole in a core substrate, forming a first conductor on a first surface of the substrate, forming a second conductor on a second surface of the substrate, and filling a conductive material in the hole such that a through-hole conductor is formed in the hole and the first and second conductors are connected via the through-hole conductor. The forming of the hole includes forming a first opening in the first surface, forming a second opening from the bottom of the first opening toward the second surface such that the second opening has a smaller diameter than the first opening, forming a third opening in the second surface, and forming a fourth opening from the bottom of the third opening toward the first surface such that the fourth opening has a smaller diameter than the third opening.

Abstract: A method for the partial or total modification of functional groups on the surface of polymeric materials or polymer-containing materials, by means of combined plasma functionalization and localized thermal defunctionalization, is disclosed. At first, a surface of a polymer material is exposed to a cold plasma, whereby a desired polymer functionalization is achieved. After the plasma treatment, the surface is locally heated in an optional manner, primarily by means of an electron beam, resulting in local defunctionalization of the heated surface area. The directing of the electron beam across the surface of the material results in any desired distribution of functional groups on the surface. Also disclosed is a device for performing such a treatment.

Abstract: Disclosed is a method for fabricating fine conductive patterns using a surface modified mask template, the method including: depositing a high molecular substance on a substrate; applying a hydrophobic material onto the high molecular substance so that the hydrophobic material can infiltrate into the high molecular substance; forming a mask template by removing a part of the high molecular substance to form a recess where a region of the substrate is exposed to an outside; depositing conductive ink on the mask template; and performing annealing to abstract metal particles from a metallic compound dissolved in the conductive ink so that an insulating pattern can be formed in a region on which the high molecular substance is deposited, but a conductive pattern can be formed as the metal particles are abstracted from the conductive ink in the recess and cohere with each other.

Abstract: The invention discloses two kinds of methods for forming patterns by vacuum coating, one of which includes the following steps: (1) prepare a glass body; (2) pre-treat a part of an internal surface of the glass body where a pattern is to be formed thereon; (21) prepare a membrane with a hollowed-out pattern and adhere it on the glass body; (22) spray a wax layer evenly on the membrane and the surface of the glass body to cover the hollowed-out pattern; (23) remove the membrane; (3) perform vacuum coating to the glass body and form a coating layer on the surface of the glass body; (4) hollow out the pattern to be formed by removing the wax layer sprayed on the glass body by heating and thereby forming the pattern.

Abstract: A superstructure fiber Bragg gratings (FBG) by laser-assisted direct writing of on-fiber metallic films. A laser direct write method is used to fabricate periodic films of silver nanoparticles on the non-planar surface of as-fabricated FBGs. Silver films with a thickness of about 9 ?m are fabricated around a Bragg grating optical fiber. The performance of the superstructure FBG is studied by applying temperature and tensile stress on the fiber. An opto-mechanical model is also developed to predict the optical response of the synthesized superstructure FBG under thermal and structural loadings. The reflectivity of sidebands in the reflection spectrum can be tuned up to 20% and 37% under thermal and structural loadings, respectively. In addition, the developed superstructure FBG is used for simultaneous measurement of multiple criteria such as force and temperature to eliminate the inherent limitation of regular FBGs in multi-parameter sensing.

Abstract: Methods for depositing material onto microfeature workpieces in reaction chambers and systems for depositing materials onto microfeature workpieces are disclosed herein. In one embodiment, a method includes depositing molecules of a gas onto a microfeature workpiece in the reaction chamber and selectively irradiating a first portion of the molecules on the microfeature workpiece in the reaction chamber with a selected radiation without irradiating a second portion of the molecules on the workpiece with the selected radiation. The first portion of the molecules can be irradiated to activate the portion of the molecules or desorb the portion of the molecules from the workpiece. The first portion of the molecules can be selectively irradiated by impinging the first portion of the molecules with a laser beam or other energy source.

Abstract: The invention relates to a method for the structured coating of substrates from liquid phase and also to a device for the structured coating. Furthermore, the invention includes the use of the method.

Abstract: One embodiment of the present invention is a unique method for depositing materials in a substrate. Another embodiment is a unique system for depositing materials in a substrate. Other embodiments include apparatuses, systems, devices, hardware, methods, and combinations for depositing materials within a substrate. Further embodiments, forms, features, aspects, benefits, and advantages of the present application will become apparent from the description and figures provided herewith.

Abstract: The invention relates to a process for the treatment of parts for creating a surface with areas with shiny and matte appearances, in which on the surface previously coated with a first layer of copper and a second layer of metal a selective etching of the second layer is performed, wherein the selective etching of the second layer is performed according to the area or areas to be glazed with respect to the rest of the part. The process allows a finish with areas of a different shine (from mirror shine to matte), the differences in thickness of which cannot be observed by the human eye without optical aids.

Abstract: A method for manufacturing thin film panels comprises providing a laser patterning system, depositing a base layer on a glass substrate, separating the base layer by scribing a plurality of separation lines corresponding with a predefined scribe pattern, depositing a functional layer on the base layer, determining a first base layer separation edge, moving the translation stage by a first distance, activating the laser array and moving the translation stage by a second distance, deactivating the laser array, determining subsequent separation edges of the base layer and scribing lines therein, depositing a top layer on the functional layer, determining a first functional layer separation edge, operating the stepper motor to move the translation stage by a third distance, activating the laser array and moving the translation stage by a fourth distance, deactivating the laser array, and determining subsequent separation edges of the functional layer and scribing lines therein.

Abstract: Hydrogen energy systems for obtaining hydrogen gas from a solid storage medium using controlled laser beams. Also disclosed are systems for charging/recharging magnesium with hydrogen to obtain magnesium hydride. Other relatively safe systems assisting storage, transport and use (as in vehicles) of such solid storage mediums are disclosed.

Abstract: A method for manufacturing an antenna includes steps as follows. First, a substrate is provided, wherein a surface of the substrate has an antenna region. Then, the surface of the substrate is electroless plated with a metal medium, so that the surface is covered with the metal medium. Then, the metal medium is covered with a resist. Then, a portion of the resist in the antenna region is removed. Then, the antenna region is electroplated with metal material to form an antenna main body. Then, a remaining portion of the resist is removed, and excluding a portion of the metal medium in the antenna region, the other portion of the metal medium is also removed from the substrate.

Abstract: An electrochromic layer structure with at least one active layer and at least two electrodes is described. At least one of the electrodes has an electrically conductive network of conductor tracks and the conductor tracks contain nanoparticles. An electrochromic device, a method for production of an electrochromic layer structure and use of an electrochromic layer structure and an electrochromic device are also described.

Abstract: A molded resin product includes a substrate made of a transparent resin, opaque coating film disposed on rear surface of the substrate except for an area set aside for a patterned portion, a transparent resin material disposed in the area set aside for the patterned portion on the rear surface of the substrate, and an opaque reflection coating or a half-reflective coating laminated to the transparent resin material. Under this configuration, the patterned portion looks as if it pops up from the rear surface of the substrate. If a half-reflective coating is used, the pattern is visible through the half-reflective coating when the pattern is viewed from the rear surface of the lid of a molded resin product.

Abstract: An opening is formed in resin 20 by a laser beam so that a via hole is formed. At this time, copper foil 22, the thickness of which is reduced (to 3 ?m) by performing etching to lower the thermal conductivity is used as a conformal mask. Therefore, an opening 20a can be formed in the resin 20 if the number of irradiation of pulse-shape laser beam is reduced. Therefore, occurrence of undercut of the resin 20 which forms an interlayer insulating resin layer can be prevented. Thus, the reliability of the connection of the via holes can be prevented. Thus, the reliability of the connection of the via holes can be improved.

Abstract: Metalized plastic substrates, and methods thereof are provided herein. The method includes providing a plastic substrate having a plurality of accelerators dispersed in the plastic substrate. The accelerators have a formula selected from the group consisting of: CuFe2O4-?, Ca0.25Cu0.75TiO3-?, and TiO2-?, wherein ?, ?, ? denotes oxygen vacancies in corresponding accelerators and 0.05???0.8, 0.05???0.5, and 0.05???1.0. The method further includes removing at least a portion of a surface of the plastic substrate to expose at least a first accelerator. The method further includes plating the exposed 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 forming an antenna structure is provided, including the following steps of: providing a non-conductive frame and disposing a plating resist material on the non-conductive frame, removing a part of the plating resist material within a predetermined region on the non-conductive frame and forming a roughened surface on the non-conductive frame within the predetermined region by laser marking, forming a medium layer on the roughened surface, wherein the medium layer comprises Pd or Ag, removing the plating resist material on the non-conductive frame, and forming a metal layer on the medium layer.

Abstract: Provided is method of preparing a printed matter with a printed array of particles, the method including: (a) preparing a template, a surface of which has depressions or projections capable of fixing the positions and/or orientations of one or more particles; (b) placing the particles on the template and applying a physical pressure to the particles so that a portion or the whole of each particle is inserted in each of pores defined by the depressions or the projections to form a particle array; and (c) contacting the template having thereon the particle array to a printing substrate so that the particle array is transferred to the printing substrate.

Abstract: To provide a process for producing a glass member provided with a sealing material layer, capable of favorably forming a sealing material layer even in a case where the entire glass substrate cannot be heated. A sealing material paste prepared by mixing a sealing material containing a sealing glass and a laser absorbent with an organic binder is applied to a sealing region of a glass substrate 2 in the form of a frame. The frame-form coating layer 8 of the sealing material paste is selectively heated by irradiation with a laser light 9 along the coating layer 8 to fire the sealing material while the organic binder in the coating layer 8 is burnt out to form a sealing material layer 7. Using such a sealing material layer 7, a space between two glass substrates is sealed.

Abstract: A tape construct comprises a laser-imageable composition, whereby images can be created in said tape by irradiation with a laser. In an alternative, a laser-imageable formulation suitable for spray application to a substrate, comprises a color-former, a binder and a carrier.