Abstract: A porous organosilica glass (OSG) film consists of a single phase of a material represented by the formula SivOwCxHyFz, where v+w+x+y+z=100%, v is from 10 to 35 atomic %, w is from 10 to 65 atomic %, x is from 5 to 30 atomic %, y is from 10 to 50 atomic % and z is from 0 to 15 atomic %, wherein the film has pores and a dielectric constant less than 2.6. The film is provided by a chemical vapor deposition method in which a preliminary film is deposited from organosilane and/or organosiloxane precursors and pore-forming agents (porogens), which can be independent of, or bonded to, the precursors. The porogens are subsequently removed to provide the porous film. Compositions, such as kits, for forming the films include porogens and precursors. Porogenated precursors are also useful for providing the film.

Abstract: A coating steel component with a pattern of an iron based matrix with crystalline particles metallurgically bound to the surface of a steel substrate for use as disc cutters or other components with one or more abrading surfaces that can experience significant abrasive wear, high point loads, and large shear stresses during use. The coated component contains a pattern of features in the shape of freckles or stripes that are laser formed and fused to the steel substrate. The features can display an inner core that is harder than the steel substrate but generally softer than the matrix surrounding the core, providing toughness and wear resistance to the features. The features result from processing an amorphous alloy where the resulting matrix can be amorphous, partially devitrified or fully devitrified.

Abstract: A method of depositing a material on a receiving substrate, the method comprising: providing a source substrate having a back surface and a front surface, the back surface carrying at least one piece of coating material; providing a receiving substrate positioned adjacent to the source substrate and facing the coating material; and radiating light towards the front surface of the source substrate, to remove at least one piece of the coating material from the source substrate and deposit said removed at least one piece onto the receiving substrate as a whole.

Abstract: A method of charging a web or foil is described. The method includes guiding a web or foil having a thickness of 10 ?m or larger with at least on roller; providing a linear electron source having a housing acting as an anode, the housing having side walls; a slit opening in the housing for trespassing of a linear electron beam, the slit opening defining a length direction of the source; a cathode being arranged within the housing and having a first side facing the slit opening; at least one gas supply for providing a gas into the housing; and a power supply for providing a high voltage between the anode and the cathode; and emitting the linear electron beam, wherein the high voltage is adjusted for providing an electron energy to implant electrons of the electron beam within the web or foil.

Abstract: Disclosed are an atomic layer deposition apparatus using a neutral beam and a method of depositing an atomic layer using the apparatus, capable of converting an ion beam into a neutral beam and radiating it onto a substrate to be treated. The method uses an apparatus for supplying a first reaction gas containing a material that cannot be chemisorbed onto a substrate to be treated into a reaction chamber in which the substrate is loaded, and forming a first reactant adsorption layer containing a material that cannot be chemisorbed onto the substrate; and radiating a neutral beam generated by the second reaction gas onto the substrate on which the first reactant adsorption layer is formed, and removing a material not chemisorbed onto the substrate from the first reactant adsorption layer to form a second reactant adsorption layer.

Abstract: A tape-manufacturing system for coating at least one tape substrate such as, for example, for the manufacture of a high-temperature superconductor (HTS) conductor is disclosed. The tape-manufacturing system includes at least two electron beam (e-beam) deposition sources, at least one assist source and, optionally, a controller. Each e-beam deposition source may be in-process repairable. Each e-beam deposition source is capable of communicating an evaporant material with at least a portion of at least one tape substrate to deposit a coating thereon. The at least one assist source is capable of communicating a beam of a species to the coating. The controller communicates with the at least two e-beam deposition sources and the at least one assist source.

Abstract: Methods and apparatus for processing a substrate (e.g., a semiconductor substrate) is disclosed that includes irradiating at least a portion of the substrate surface with a plurality of short radiation pulses while the surface portion is exposed to a dopant compound. The pulses are selected to have a fluence at the substrate surface that is greater than a melting fluence threshold (a minimum fluence needed for the radiation pulse to cause substrate melting) and less than an ablation fluence threshold (a minimum fluence needed for the radiation pulse to cause substrate ablation). In this manner a quantity of the dopant can be incorporated into the substrate while ensuring that the roughness of the substrate's surface is significantly less than the wavelength of the plied radiation pulses.

Abstract: A composition of matter including a thin film of a high temperature superconductive oxide having particles randomly dispersed therein, the particles of an yttrium-barium-ruthenium oxide or of an yttrium-barium-niobium oxide is provided.

Abstract: An insulating film formed by a method comprising: coating a film-forming composition containing a compound having a cage structure; and drying the coated composition, wherein the coated composition is irradiated with a light having a wavelength of 200 nm or less in at least one of during the drying and after the drying; a process for producing the same; and an electronic device having the same.

Abstract: A method of decorating a perfume bottle having a wall (11, 12, 13) that presents an outside surface (14) and an inside surface (15), at least one of the surfaces (14, 15) having a shape in relief that is complex, the method comprising at least one step of applying a coating (4, 5) to at least one portion of one of the surfaces (14, 15) of complex shape, the method further comprising a subsequent step of treating said coating, the method being characterized in that said treatment step is a marking step using a laser beam (F).

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

Abstract: The present invention provides an improved electrostatic chuck for a substrate processing system. The electrostatic chuck comprising a main body having a top surface configured to support the substrate, a power supply to apply a voltage to the main body and a sealing ring disposed between the main body and the substrate wherein the sealing ring has a conductive layer.

Abstract: The invention relates to a coating composition consisting of an oxide compound. The invention also relates to a method for producing a coating composition consisting of an oxide compound and to a method for coating substrates composed of metal, semiconductor, alloy, ceramic, quartz, glass or glass-type materials with coating compositions of this type. The invention further relates to the use of a coating composition according to the invention for coating metal, semiconductor, alloy, ceramic, quartz, glass and/or glass-type substrates.

Abstract: An organic EL device in which light-emitting efficiency, color purity and laser induced thermal imaging characteristics are improved by providing with an organic EL device comprising a first electrode, a hole transport layer, a light-emitting layer, and a second electrode, wherein the light-emitting layer uses a mixture of an optically active low molecular electric charge transport material and a high molecular light-emitting substance.

Abstract: A method of laser forward transfer is disclosed. Photon energy is directed through a photon-transparent support and absorbed by a polymer interlayer coated thereon. The energized interlayer causes the transfer of a biological material coated thereon across a gap and onto a receiving substrate.

Abstract: Provided is a hydrophilic sheet which has high wettability by water, from which an adherent fouling substance or adherent foreign matter can be easily removed by washing with water, and which can be prevented from fogging due to water-drop adhesion. Also provided is a method of imparting high wettability by water to the surface of any appropriate base material. A hydrophilic sheet of the present invention includes, on a surface of a support, an assembly layer of oblique columnar structures each protruding at an elevation angle from the surface of less than 90°, and the surface of the assembly layer has a water contact angle of 10° or less.

Abstract: An electric conductor having good electric conductivity and excellent heat resistance, and a process for its production are provided. An electric conductor comprising a substrate 10 and at least two layers formed on the substrate, each being a layer (Z) made of titanium oxide doped with at least one dopant selected from the group consisting of Nb, Ta, Mo, As, Sb, W, N, F, S, Se, Te, Cr, Ni, Tc, Re, P and Bi, wherein at least one layer among said at least two layers is a second layer (Z2) 12 wherein the percentage of the number of dopant atoms based on the total number of titanium and dopant atoms is from 0.01 to 4 atomic %; and between the second layer (Z2) 12 and the substrate 10, a first layer (Z1) 11 is formed wherein the percentage of the number of dopant atoms based on the total number of titanium and dopant atoms is larger than in the second layer (Z2).

Abstract: A method for enhancing the flux pinning of a YBCO superconductor by substituting minute quantities of rare earth elements (La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu) or other deleterious elements (Sc, etc.) for Y in YBCO thin films is described. The method of the present invention enables enhanced flux pinning of the material while not significantly increasing the cost of the HIS material and can be used in all HTS deposition methods since it is not process dependent.

Abstract: A method of forming a doped Group IBIIIAVIA absorber layer for solar cells by reacting a partially reacted precursor layer with a dopant structure. The precursor layer including Group IB, Group IIIA and Group VIA materials such as Cu, Ga, In and Se are deposited on a base and partially reacted. After the dopant structure is formed on the partially reacted precursor layer, the dopant structure and partially reacted precursor layer is fully reacted. The dopant structure includes a dopant material such as Na.

Abstract: The present invention relates to phase separated siloxane-hydrocarbon copolymer surfaces which are hard and hydrophobic and can be superhydrophobic by the addition of nanoparticles. More specifically the siloxane oligomer/polymer precursor is terminated with (a) chemically reactive group(s). The bond between the siloxane moiety and the hydrocarbon functional moiety is a Si atom directly bonded to a carbon atom. It is applied (for example) to the entire surface of a fibre reinforced and void-free polymer concrete core with 60 to 88% polymeric and inorganic fillers for application as a high voltage insulator. The product has high mechanical strength, impact resistance and good electrical insulation properties. The coating provides good UV resistance, hydrophobicity and a hard self-cleaning surface for use as outdoor high voltage electrical insulator in areas of high pollution with low leakage currents when energised and can also be applied to other products.

Abstract: Laser-assisted apparatus and methods for performing nanoscale material processing, including nanodeposition of materials, can be controlled very precisely to yield both simple and complex structures with sizes less than 100 nm. Optical or thermal energy in the near field of a photon (laser) pulse is used to fabricate submicron and nanometer structures on a substrate. A wide variety of laser material processing techniques can be adapted for use including, subtractive (e.g., ablation, machining or chemical etching), additive (e.g., chemical vapor deposition, selective self-assembly), and modification (e.g., phase transformation, doping) processes. Additionally, the apparatus can be integrated into imaging instruments, such as SEM and TEM, to allow for real-time imaging of the material processing.

Abstract: Systems and methods disclosed herein employ various modes of material deposition and material removal to build a complex, three-dimensional structure upon a rotating base. The systems and methods may be usefully employed to fabricate geometrically and aesthetically accurate dental articles from digital models.

Abstract: The present disclosure concerns a means to use light manipulation in engineered or structured coatings for thermal or photothermal effects and/or refractive and reflective index management. Such metallic, nonmetallic, organic or inorganic metamaterials or nanostructures could be used to manipulate light or energy for thermal or photothermal effects and/or refractive and reflective index management on or in any material or substrate on or in any material or substrate. The light scattering properties of metallic particles and film can be used to tune such coatings, structures or films over a broad spectrum.

Abstract: Methods and devices for selective etching in a semiconductor process are shown. Chemical species generated in a reaction chamber provide both a selective etching function and concurrently form a protective coating on other regions. An electron beam provides activation to selective chemical species. In one example, reactive species are generated from a halogen and carbon containing gas source. Addition of other gasses to the system can provide functions such as controlling a chemistry in a protective layer during a processing operation.

Abstract: A nanocomposite layer is deposited on a surface of a substrate by a process including: a) moving a laser bean along a target including a polymer and a plurality of nanoparticles, b) vaporizing a portion of the polymer into a gaseous form, and c) transferring the portion of the polymer in the gaseous form, and a portion of the nanoparticles from the target to the surface of the substrate. The target may be divided into a first section holding the nanoparticles and a second section including the polymer, or the target may include a mixture of the nanoparticles and the polymer.

Abstract: An organic-inorganic lighting device and a method for fabricating the same is disclosed. Firstly, a conductive substrate is provided, and an inorganic conducting film layer and a seed layer are formed in turn on the conductive substrate. Next, an array of micro and nano zinc oxide wire is formed on the seed layer by using properties of the seed layer. Finally, an electrode layer is formed on the array of micro and nano zinc oxide wire. The invention solves the problem of low mobility of electrons in inorganic materials.

Abstract: Disclosed herein is a nanostructured thin film. The nanostructured thin film comprises a nanoparticle layer and a number of micro-undulated surfaces formed on the nanoparticle layer. The two micro-undulated structures of the nanostructured thin film are uniformly introduced over a large area. This configuration makes it easy to control the surface properties of the nanostructured thin film. Therefore, the nanostructured thin film can be widely applied to a variety of devices. Also disclosed herein is a method for controlling the surface properties of the nanostructured thin film.

Abstract: A process and apparatus for depositing a ceramic coating, such as a thermal barrier coating (TBC) for a gas turbine engine component. The process deposits a coating whose composition includes multiple oxide compounds and a carbon-based constituent, e.g., elemental carbon, carbides, and carbon-based gases. The process uses at least one evaporation source to provide multiple different oxide compounds and at least one carbide compound comprising carbon and an element. The evaporation source is evaporated to produce a vapor cloud that contacts and condenses on the component surface to form the ceramic coating, and particularly so that the coating comprises the oxide compounds, an oxide of the element of the carbide compound, and the carbide compound and/or a carbon-containing gas. The process is carried out with an apparatus comprising a coating chamber in which the evaporation source is present, and a device for evaporating the evaporation source.

Abstract: Nanorings and methods for fabrication thereof, preferably of gold and tungsten, involve deposition on silicon wafer and/or glass substrates using random incidence sputtering deposition and thermal vapor deposition techniques to produce two dimensional tungsten nanotriangle and gold nanoring arrays on the silicon wafer substrates with the size of resulting equilateral tungsten nanotriangles being about 100 nm per side and being spaced about 210 nm from each other, and with the gold nanorings being about 220 nm in diameter, 40 nm wide, 10 nm thick and being spaced about 560 nm from each other.

Abstract: The present invention relates to benefit agent containing delivery particles, compositions comprising said particles, and processes for making and using the aforementioned particles and compositions. When employed in compositions, for example, compositions for cleaning, fabric care, or coating onto various substrates, textiles or surfaces, such particles increase the efficiency of benefit agent delivery, thereby allowing reduced amounts of benefit agents to be employed. In addition to allowing the amount of benefit agent to be reduced, such particles allow a broad range of benefit agents to be employed.

Abstract: Methods of preparing a carbon-based sheet are provided, the methods include aligning carbon-containing materials on a substrate and forming the carbon-based sheet on the substrate by performing an annealing process on the substrate including the carbon-containing materials. The carbon-based sheet may be a graphene sheet.

Abstract: Camouflage articles are formed of arrangements of portions of different colors. The lighter colored portions or parts thereof are formed of reflective ink in that particular color. This arrangement provides the article with a camouflage appearance, altering depth perception by animals in daylight, and reflectivity at night for safety.

Abstract: A physical vapor deposition apparatus includes first and second chambers. A first directed vapor deposition crucible is at least partially within the first chamber for presenting a first source material to be deposited on a work piece. A second directed vapor deposition crucible is at least partially within the second chamber for presenting a second, different source material to be deposited as a second coating on the work piece. At least one of the materials may be deposited as a coating.

Abstract: Described are coating compositions for marking substrates comprising a) a solvent, b) a salt of a phosphorus or boron containing acid and an amine or imine, c) a salt of a non-phosphorus and non-boron containing acid and an amine or imine, d) a binder, and e) optionally additional ingredients, their manufacture and use, wherein the above-mentioned salts can also be present in an encapsulated form as a kind of pseudo-pigment. Substrates coated by the above compositions can be marked by laser irradiation.

Abstract: A method for fabricating a composite material includes providing a free-standing carbon nanotube structure having a plurality of carbon nanotubes, introducing at least two reacting materials into the carbon nanotube structure to form a reacting layer, activating the reacting materials to grow a plurality of nanoparticles, wherein the nanoparticles are spaced from each other and coated on a surface of each of the carbon nanotubes of the carbon nanotube structure.

Abstract: A mechanical seal structure and a method for manufacture that employs at least one ceramic seal face prepared by a thermal spray process.

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: Electron-beam-induced chemical reactions with precursor gases are controlled by adsorbate depletion control. Adsorbate depletion can be controlled by controlling the beam current, preferably by rapidly blanking the beam, and by cooling the substrate. The beam preferably has a low energy to reduce the interaction volume. By controlling the depletion and the interaction volume, a user has the ability to produce precise shapes.

Abstract: Optical information media that contain a data layer material that is substantially inert to oxidation and has a defined melting point range are disclosed. The inertness to oxidation and melting point range make the media particularly attractive for long-term information storage.

Abstract: The invention relates in general level to a method for coating glass products including large surface areas. The invention also relates to coated glass products manufactured by the method. The coating is carried out by employing ultra short pulsed laser deposition wherein pulsed laser beam is scanned with a rotating optical scanner including at least one mirror for reflecting the laser beam. The invention has several both industrially and qualitatively advantageous effects such as high coating production rate, excellent coating properties and overall low manufacturing costs.

Abstract: The invention relates to a method for precision processing of substrates in which a liquid jet which is directed towards a substrate surface and contains a processing reagent is guided over the regions of the substrate to be processed, a laser beam being coupled into the liquid jet. Likewise, a device which is suitable for implementation of the method is described. The method is used for different process steps in the production of solar cells.

Abstract: The synthesis of nanostructures uses a catalyst that may be in the form of a thin film layer on a substrate. Precursor compounds are selected for low boiling point or already exist in gaseous form. Nanostructures are capable of synthesis with a masked substrate to form patterned nanostructure growth. The techniques further include forming metal nanoparticles with sizes <10 nm and with a narrow size distribution. Metallic nanoparticles have been shown to possess enhanced catalytic properties. The process may include plasma enhanced chemical vapor deposition to deposit Ni, Pt, and/or Au nanoparticles onto the surfaces of SiO2, SiC, and GaN nanowires. A nanostructure sample can be coated with metallic nanoparticles in approximately 5-7 minutes. The size of the nanoparticles can be controlled through appropriate control of temperature and pressure during the process. The coated nanowires have application as gas and aqueous sensors and hydrogen storage.

Abstract: A method of producing an electroluminescent display is provided. A medium is obtained from a stream of commerce. The medium is activated to form a pattern such that the medium emits light by electroluminescence according to the pattern in response to electrical energization.

Abstract: A method for arranging particles according to one aspect of the present invention comprises the steps of: forming a thin film on a surface of a substrate, the thin film being obtained by dispersing first particles made of metal in a material, a surface of the material is to be charged to a first polarity in a predetermined solution; dispersing second particles in the solution, the second particles being charged to a second polarity opposite to the first polarity; immersing the thin film in the solution; and irradiating the thin film with light having a wavelength which causes plasmon resonance with surface plasmons of the metal particles.

Abstract: A method of depositing a chalcogenide material. The method includes vaporizing a condensed phase chalcogenide source material and forming a product chalcogenide material on a remote deposition surface by condensing the vapor. Vaporization may occur via sublimation or evaporation and the condensed phase chalcogenide source material may be a solid-phase source material or a liquid-phase source material. The deposition surface may include a patterned feature such as a hole, trench or other opening and the method provides for conformal or nearly conformal filling of the feature. The composition of the product chalcogenide material closely corresponds to the composition of the chalcogenide source material.

Abstract: The present invention relates to a cutting tool having a base body and a multilayered coating applied thereto, wherein at least two layers of the multilayered coating arranged one on top of the other contain, or consist of, metal oxide of the same metal or of different metals. In order to create cutting tools which are better than those of the prior art, it is proposed according to the invention that the at least two metal oxide layers arranged one on top of the other be produced successively by different PVD-processes, selected from i) reactive magnetron sputtering (RMS), ii) arc vapour deposition (arc-PVD), iii) ion plating, iv) electron beam vapour deposition and v) laser deposition, wherein modifications of the respective processes i) to v) do not constitute different PVD-processes.

Abstract: The present invention relates to a process for fabricating a composite functional body/substrate, either by melting with an energy beam or by spin coating. The functional material is preferably a piezoelectric material (PVDF). The energy beam is preferably a laser beam.

Abstract: A wavelength-sensitive detector is provided that is based on elongate nanostructures, e.g. nanowires. The elongate nanostructures are parallel with respect to a common substrate and they are grouped in at least first and second units of a plurality of parallel elongate nanostructures. The elongate nanostructures are positioned in between a first and second electrode, the first and second electrodes lying respectively in a first and second plane substantially perpendicular to the plane of substrate, whereby all elongate nanostructures in a same photoconductor unit are contacted by the same two electrodes. Circuitry is added to read out electrical signals from the photoconductor units. The electronic density of states of the elongate nanostructures in each unit is different, because the material, of which the elongate nanostructures are made, is different or because the diameter of the elongate nanostructures is different.

Abstract: A manufacturing apparatus of display element which forms highly reliable drive circuits or thin-film transistors on a flexible substrate, a manufacturing method, and a highly reliable display element are provided. A display element (50) includes a flexible substrate (FB), a first partition wall and second partition wall (BA) formed by pressing the flexible substrate, a lyophobic surface (PJ) formed on surfaces of the first partition wall and the second partition wall, and electrodes (S, P) formed by applying droplets onto a groove portion formed between the first partition wall and second partition wall. It is also possible for a lyophilic surface to be formed on the surface of the groove portion (GR) between the first partition wall and second partition wall (BA).

Abstract: An omni-directional reflector having a transparent conductive low-index layer formed of conductive nanorods and a light emitting diode utilizing the omni-directional reflector are provided. The omni-directional reflector includes: a transparent conductive low-index layer formed of conductive nanorods; and a reflective layer formed of a metal.