Abstract: An embodiment of the invention provides a laser annealing method, including the steps of radiating a laser beam to an amorphous film on a substrate while scanning the laser beam for the amorphous film, crystallizing the amorphous film, detecting a light quantity of laser beam reflected from the substrate and a scanning speed of the laser beam while the radiation and the scanning of the laser beam are carried out for the amorphous film, and controlling a radiation level and the scanning speed of the laser beam based on results of comparison of the light quantity of laser beam reflected from the substrate, and the scanning speed of the laser beam with respective preset references.

Abstract: Apparatus for curing a photocurable material applied to a floor surface includes a carriage having wheels, a source of curing light carried by the carriage, and a solid state ballast circuit selectively energizing said light source. The apparatus is free of a shutter that would selectively cover the source of curing light.

Abstract: The invention relates to a mobile identification indicator (1) for locking and unlocking a closure device of a motor vehicle, comprising an electronic unit (6) disposed inside a housing (2). According to the invention, the housing (2) has a defined outer surface (7) on which is applied a functional coating (10), wherein the functional coating (10) comprises an information layer (11) for individualizing the identification indicator (1).

Abstract: There is disclosed a system for forming a superconductor material on a substrate. The system may comprise a dispensing reel; a spooling reel; and at least two modular reaction chambers, wherein at least one modular reaction chamber is connected to a supply of buffer precursor material and at least one other modular reaction chamber is connected to a supply of superconductor precursor material. The modular reaction chambers may include connections capable of being modified to add or remove adjacent components. It is understood that at least one of the spooling reel and/or the dispensing reel are exposed to normal atmosphere. The deposition chamber may also comprise a distribution head that provides a laminar flow of precursor materials onto the substrate, as well as at least one lamp comprising a reflector that directs UV and/or visible light towards the tape substrate to enhance a growth rate of material.

Abstract: A method of manufacturing a semiconductor device, which includes forming a resist layer on a substrate, performing an exposure and development process on the resist layer to form a resist pattern, performing a slimming process to slim the resist pattern, forming a mask material layer on side walls of the slimmed resist pattern, and removing the slimmed resist pattern. The slimming process further includes coating an extensive agent on the substrate, expanding the expansive agent, and removing the expanded expansive agent.

Abstract: The present invention concerns a system and device for self-tanning of the type comprising a booth (2) in which two lateral walls (5) have one or more lamps (52) protected by gratings (51) arranged to warm the area inside the booth and to radiate the skin of a person in the booth. The booth is provided with a spraying device (11) for nebulizing a tanning substance. The device comprises a Second control panel (6) connected to a means of management envisaged for activating and governing the diverse functions of the device under the control of an operator or of a user. The system comprises a series of operative phases which envisage, for a person who undergoes a self-tanning session: entering the booth; pressing start on the control panel; the lamps switching on for a preset time and switching off; a tanning solution being sprayed, followed by the lamps being switched on a second time to dry the tanning solution; the lamps being switched off; the person leaving the booth.

Abstract: A composition of matter includes a substrate material (M) having a bulk portion and an outer surface integrated to the bulk portion. The outer surface includes a modified surface layer. The modified surface layer extends to a depth from the outer surface of at least 1 nm. The modified surface layer includes M and at least one other material (X) which is a metal or metal alloy. The modified surface layer has a 25° C. electrical conductivity which is at least 2.5% above or below a 25° C. electrical conductivity in the bulk portion of M. The composition of matter can be an article that includes a frequency selective surface-based metamaterial, and the plurality of modified surface portions can be a plurality of periodic surface elements that provide a resonant frequency.

Abstract: A system for applying hot melt adhesive powder onto a non-metallic object surface comprises a convey belt, a radiation chamber, a spraying chamber and a heating chamber. The convey belt is used to deliver a non-metallic object treated by a cleaning agent and a conductive liquid through the radiation chamber where the surface of the non-metallic objected is radiated by ultraviolet rays and ozone and then through the spraying chamber where the surface of the non-metallic object is sprayed with charged hot melt adhesive powder, and finally into the heating chamber where the hot melt adhesive powder attached onto the non-metallic object will be melted into a liquid adhesive film ready to be bonded.

Abstract: A coating device for coating a peripheral surface of a sleeve body with a coating formulation includes a vertical support column for supporting a sleeve body in a vertical position coaxial with a coating axis, a carriage slideable along the vertical support column, and an annular coating stage attached to the carriage and moveable therewith for containing the coating formulation and for coating a layer of the coating formulation onto the peripheral surface of the sleeve body during a sliding movement of the carriage along the vertical support column. The coating device includes an irradiation stage that is arranged to be moveable with the annular coating stage and to provide radiation to at least partially cure the layer of coating formulation onto the peripheral surface so as to prevent flow off of the coating formulation.

Abstract: The present invention relates to a method and a device to improve an aged surface layer (7) of a boarding material (1) to an essentially “newly painted condition”, which boarding material (1) is manufactured from essentially recovered, ground down polymer material (3) and ground down organic fibre (4) having a surface layer (2) which, after a certain time, has been exposed to UV light, weather and wind, cold and heat, and has caused the polymer material (3) to be removed to some extent and to create an aged surface layer (7), which according to the invention is restored indifferent steps. In a first step loose particles are removed from the aged surface layer (7), and in a second step this layer is heated to 160-200 degrees C. by a heating device (8) until the organic fibre (4) has sucked in, by capillary suction, the fluid polymer material (3) containing dye pigment lying underneath the aged surface layer (7), which thereafter is improved to an essentially new condition.

Abstract: An apparatus for producing a self-sealing pneumatic tire includes a rotational drive apparatus that grasps a vulcanization molded pneumatic tire and rotationally drives the pneumatic tire around a tire axis, together with a spray nozzle for a sealant material, a spray nozzle for a cover material, and an irradiating device that irradiates an electron beam, infrared rays, ultraviolet rays, or ultrasonic waves that are provided on a lateral part of the pneumatic tire grasped by the rotational drive apparatus in a manner such that each of the spray nozzles and the irradiating device can move in and out of a cavity of the pneumatic tire.

Abstract: A heat treatment apparatus has a substrate holder with two holder constituting bodies that each have a plurality of columns and substrate holding sections. One of the holder constituting bodies holds substrates so that their front surfaces face upward, while the other holds the substrates so that their back surfaces face upward. At least one of the holder constituting bodies moves vertically to change the positions of the holder constituting bodies relative to each other. A distance between one of a first pair of vertically-adjacent substrates with respective front surfaces facing each other and the other of the first pair of substrates is set to ensure treatment uniformity and to be larger than a distance between one of a second pair of vertically-adjacent substrates with their respective back surfaces facing each other and the other of the second pair of substrates.

Abstract: A process and device for drying the coating of containers made of thermoplastic material. The process involves feeding said containers through a furnace divided into two areas: in the first, most of the solvent of the coating is removed by heating the paint with infrared lamps, while the temperature of the containers is controlled through an airflow; in the second, the remaining solvent is removed using said airflow coming from the first area of the furnace.

Abstract: According to a method for forming a pattern in one embodiment, a first pattern is formed on a substrate, and an upper part of the first pattern is irradiated with ultraviolet rays, to enhance a liquid-repellent property to an inversion resin material. Furthermore, according to the method for forming the pattern, the inversion resin material is applied to the substrate after the irradiation of the ultraviolet rays, the first pattern is removed after the inversion resin material has been applied to form a second pattern containing the inversion resin material, and the substrate is processed using the second pattern as a mask.

Abstract: The invention relates to a device for forming at least one thin film made of a powder material (14). The device includes a storage area, a deposition area (7), and a cylinder (1) having a circular base for depositing and compacting the powder material (14), the latter having been previously moved from a storage area to a deposition area (7). The device further includes: a cylinder (1) having a smooth cylindrical surface, said cylinder being rotatably movable (F1) about the axis of revolution (A) thereof, as well as translatably movable in at least one direction (F5) parallel to a main plane in the deposition area (7), between the storage and deposition (7) areas; a scraper (3) that is movable in a direction perpendicular to the main plane of the deposition (7) area, as well as translatably movable in the same direction (F5) as the cylinder (1), between the storage and deposition (7) areas, the scraper (3) being adapted to move the powder material from one area to another (7).

Abstract: A cooler is connected to a back surface of an insulating substrate. A masking jig is used to specify a coating region in which a coating is to be formed by spraying copper powder onto a front surface of the insulating substrate from a cold spray device. This masking jig includes a metal member formed with an opening for specifying the coating region and placed in contact with the front surface of the insulating substrate. The metal member internally includes a heating wire is provided to heat the vicinity of the opening. Accordingly, in the case where the cooler is connected in advance to the back surface of the substrate constituting a power module, the front surface of the substrate having been heated by a low-cost structure, the cold spray device is allowed to spray the copper powder onto the front surface of the substrate.

Abstract: The invention relates to a method for coating a metal strip with a coating containing a solvent and for drying and/or cross-linking said coating. Accordingly, the metal strip is provided with the coating in an inner chamber of a coating device. The coated metal strip is conducted through a drying unit and in an inner chamber of the latter is exposed to a form of energy by at least one radiation source that is cooled by a cooling gas, said form of energy being converted to heat in the coating and/or the metal strip. The cooling gas that is supplied to the radiation source flows through the latter, absorbs the waste heat from said source and is then conducted into the inner chamber of the drying unit, thus saving energy and gas. The invention also relates to an installation that is suitable for carrying out said method.

Abstract: A production assembly and associated process for mass producing such as a thermoplastic pallet and which utilizes a multiple insert supporting and continuously moving carousels inter-faceable with an input line upon which is transported a plurality of rigid and planar shaped inserts, as well as an output line a spaced relationship from the input line for removing, from the carousel, the resin coated articles. The invention further teaches a series of subset variants for spray applying a two part resin and hardener upon the insert according to a selected thickness, following which the inserts are cured and dried prior to transferring to the output line and in order to create a finished product.

Abstract: A disclosed method for producing a hollow cell array structure includes a first step of layering a deformable material capable of being plastically deformed under a predetermined condition on a first substrate, the first substrate having plural, mutually separated depressions in a surface thereof, such that the deformable material forms mutually isolated spaces in the corresponding depressions; a second step of expanding the spaces in the plural depressions by inducing a gas pressure of the spaces while extending the deformable material on the first substrate, such that plural hollow cells are simultaneously formed in correspondence to the plural depressions in predetermined directions; and a third step of selectively solidifying portions of the plural hollow cells by selectively applying ultraviolet rays thereto.

Abstract: Described herein are bioprinters comprising: one or more printer heads, wherein a printer head comprises a means for receiving and holding at least one cartridge, and wherein said cartridge comprises contents selected from one or more of: bio-ink and support material; a means for calibrating the position of at least one cartridge; and a means for dispensing the contents of at least one cartridge. Further described herein are methods for fabricating a tissue construct, comprising: a computer module receiving input of a visual representation of a desired tissue construct; a computer module generating a series of commands, wherein the commands are based on the visual representation and are readable by a bioprinter; a computer module providing the series of commands to a bioprinter; and the bioprinter depositing bio-ink and support material according to the commands to form a construct with a defined geometry.

Abstract: The present invention relates to in-line equipment used to process substrates. In some applications, the equipment is used in the in-line manufacture PV cells or modules. In some embodiments, a heating system is provided that comprises a plurality of heating technologies for the heat treatment of substrates wherein a first heating system is used to rapidly raise the substrate temperature to the desired set point and a second heating system is used to maintain the substrate at the temperature set point throughout the thermal treatment process.

Abstract: Disclosed is a liquid processing apparatus which performs a liquid processing by supplying a chemical liquid from a chemical liquid supplying unit to substrate rotating around a vertical axis, and includes a cover member arranged at an upper surface of substrate to oppose the substrate and have a space therebetween is provided with a gas supplying port, and gas is supplied from gas supplying port toward the space. The gas is discharged from the space through a gap between protrusion at the circumferential edge of cover member protruding downward and the substrate. In addition, lamp heater heating the circumferential edge of substrate is arranged in the space along the circumferential direction of substrate, the chemical liquid supplied from a chemical liquid supplying unit is supplied to a position closer to the circumferential edge side than a position at which lamp heater is provided.

Abstract: Provided is a compound semiconductor deposition method of adjusting the luminous wavelength of a compound semiconductor of a ternary or higher system in a nanometer order in depositing the compound semiconductor on a substrate.

Abstract: The invention relates to a machining head with integrated powder supply for deposition welding using laser radiation. A machining head in accordance with the invention can in particular be used for deposition welding at a high deposition rate. In the machining head in accordance with the invention, the laser radiation is directed to supplied powder and to a material surface with a focal spot. The powder supply takes place symmetrically to the axial feed direction with a plurality of channels arranged oppositely. The channels are aligned at an obliquely inclined angle so that powder discharged from them is supplied into the focal spot of the laser radiation from two mutually oppositely disposed sides over the total width of the focal spot with respect to the axial feed direction.

Abstract: A laser cladding device for applying a coating to a part comprising a laser which can generate laser light, which is adapted to heat the coating and the part, a main body defining a laser light channel adapted to transmit the laser light to the part, a coating channel adapted to transmit the coating to the part, and a vacuum channel and a nozzle having an exit. The nozzle comprises a delivery port at one end of the laser light channel, a coating port at one end of the coating channel, and a vacuum port at one end of the vacuum channel, wherein the vacuum port is positioned generally adjacent the delivery port. In operation the vacuum port draws a vacuum, pulling the coating towards the part.

Abstract: The present invention relates to hard coating of ferrous metal substrates using a laser beam with diamond particles in a metal matrix produced from precursor powders of metals which bond to the diamond particles and to the ferrous substrate. The hard coating is particularly useful for white iron castings for pumps (200) used in piping tar sand and water mixtures.

Abstract: A manufacturing method and apparatus of an organic resin coated metal sheet is provided. Temperatures of edge portions of the metal sheet and a temperature of an approximately central portion of the metal sheet are respectively measured using a metal-sheet temperature measuring device arranged directly upstream of lamination rolls. Respectively measured temperature values are inputted to a heating temperature controller, and output values calculated by the heating temperature controllers are inputted to a metal sheet center portion heater and the metal sheet center portion heater, respectively, to control the heating of a widthwise approximately center portion and edge portion, respectively, to a first and second temperature, respectively, the second temperature being higher than the first. A resin film is extruded to pre-rolls and is sandwiched and pressure-bonding to the metal sheet between a pair of lamination rolls. Resin portions projecting from both edge portions are then removed.

Abstract: The present invention relates to a method and to a device for sheathing a solid-state laser medium comprising an active solid-state core material coated with a sheath. According to the method of the invention: a) the core material, made in the form of an elongate bar along a fibre axis, is at least partially introduced into a capillary tube; b) a laser beam is focused onto an annular focusing zone of the capillary tube until said tube around the core material melts in said focusing zone but without melting said core material; and c) when the molten capillary material adheres to the core material, said core material and/or said capillary tube are moved in a direction collinear with the axis of the core.

Abstract: The present invention relates to an apparatus for manufacturing an integrated circuit (10) having a thick film metal layer (14). A layer of metal paste (14) is applied via an application means (24) onto a heat-conducting substrate (12). The metal paste (14) includes metal particles of a predetermined size. An RF generator (16) selectively inductively couples RF energy (18) into the metal paste (14). The predetermined size of the metal particles of the metal paste (14) corresponds to a coupling frequency of the RF energy (18), for heating the metal particles. In this way the metal particles of the metal paste (14) are heated with only a small fraction of the power of conventional processes, and without the need to pre-sinter the metal paste (14).

Abstract: The present invention provides a coating apparatus which can form a stable photochromic coating film. In the invention, a centering device, a lens height measuring device, a primer fluid applicator device, a primer spinning device, a drying device, a photochromic fluid applicator device, a photochromic spinning device, a UV device and a lens transport means comprising a pair of handling devices are provided to a coating apparatus.

Abstract: Chemical bath deposition (CBD) apparatuses and fabrication methods for compound thin films are presented. A chemical bath deposition apparatus includes a chemical bath reaction container, a substrate chuck for fixing a substrate arranged face-down toward the bottom of the chemical bath reaction container, multiple solution containers connecting to a reaction solution mixer and further connection to the chemical bath reaction container, and a temperature control system including a first heater controlling the temperature of the chemical bath reaction container, a second heater controlling the temperature of the substrate chuck, and a third heater controlling the temperature of the multiple solution containers.

Abstract: The present invention relates to an apparatus for laser cladding of a curved surface comprising: (a) an elongated arm having first and second ends and defining a chamber through the arm from the first end to the second end; (b) a laser delivery source connected to a focusing lens mounted in a housing within an opening on the first end of the arm for delivering a laser beam through the chamber; (c) a delivery head mounted on the second end of the arm comprised of (i) an enclosure having an inlet for receiving the laser and an outlet for delivering the laser to the curved surface, (ii) a powder nozzle for delivering a cladding powder to an inner surface of the curved surface, and (iii) a reflective surface for reflecting the laser to exit through the outlet; (d) mounting means for rotating the curved surface for the cladding of the curved surface; and (e) indexing means for moving the arm substantially parallel to a longitudinal axis of the curved surface so as to clad the curved surface during the rotation of

Abstract: A cold spray nozzle assembly for applying a coating of particles to a substrate includes a nozzle defining an inner passage with a nozzle exit. The nozzle assembly also includes a particle supply member in communication with the inner passage. The particle supply member supplies the particles to flow and accelerate through the inner passage and out of the nozzle via the nozzle exit toward the substrate to be coated thereon. Furthermore, the nozzle assembly includes a laser that emits a laser beam that is transmitted through the inner passage. The laser heats at least one of the particles and the substrate to promote coating of the substrate with the particles.

Abstract: A powder bed additive layer manufacturing system includes a linear traversing re-coater and a build plate. The build plate is mounted for rotation relative to the re-coater on an axis extending through the build plate.

Abstract: Assay devices comprising substrates functionalized to comprise probe species on multiple separate regions are provided. Ten thousand to a hundred thousand separate regions can be provided in a substrate of one square centimeter. The separate regions can comprise separate probe species, or in another embodiment, multiple different probe species can be present on each single functionalized region. The probe species are selected to be specific for binding to target species of interest in a sample. Methods and systems for making these devices are also provided. The devices are useful, for example for assaying molecules in a human sample that are reactive to a large number of different allergens placed on the substrate.

Abstract: Embodiments of the present invention provide apparatus and method for improving gas distribution during thermal processing. One embodiment of the present invention provides an apparatus for processing a substrate comprising a chamber body defining a processing volume, a substrate support disposed in the processing volume, wherein the substrate support is configured to support and rotate the substrate, a gas inlet assembly coupled to an inlet of the chamber body and configured to provide a first gas flow to the processing volume, and an exhaust assembly coupled to an outlet of the chamber body, wherein the gas inlet assembly and the exhaust assembly are disposed on opposite sides of the chamber body, and the exhaust assembly defines an exhaust volume configured to extend the processing volume.

Abstract: A deposition apparatus includes a coating chamber operative to deposit a coating on workpieces. A preheating chamber is located adjacent to the coating chamber and includes a heating zone receiving the workpieces. A heating source is operative to provide heat to the heating zone. A thermal hood within the preheating chamber is located adjacent to the heating zone and operative to control a temperature of the heating zone.

Abstract: A two roller impregnator for impregnating a fiber with (catalyzed) resin. The resin is kept directly above the two rollers and enclosed with a set of dams to create a resin pool. A different resin pool may be generated for each roller. The resin release mechanism facilitates for the resin and if necessary, a catalyst, to be released into the resin pool(s). Temperature of the resin pool can be controlled, along with the temperature of each roller. A post-impregnation catalyst activator can be utilized to activate the catalyst.

Abstract: Wafers A1 to A10 of a first lot A and wafers B1 to B10 of a second lot B are processed by a second heating unit at different temperatures, respectively. A wafer W is carried in a processing block included in coating and developing system along a route passing a temperature control unit CPL2, a coating unit BCT, a heating unit LHP2, a temperature control unit CPL3, a coating unit COT, a heating unit LHP3, and a cooling unit COL in that order. The process temperature of the heating unit LHP3 is changed after the last wafer A10 of the first lot A has been processed by the heating unit LHP3.

Abstract: The disclosed invention is with regard to a liquid crystal display panel including a substrate having a plurality of layers formed thereon, and having a first surface region and a second surface region on a surface of an uppermost layer of the plurality of layers, wherein the first and second surface regions having different surface characteristics in reaction to a particular liquid, and a spacer formed on the second surface region.

Abstract: There is provided a method for heating a part within a processing chamber of a semiconductor manufacturing apparatus having a substrate in the processing chamber and performing a process on the substrate. The heating method includes generating heating lights which is generated by a heating light source provided outside the processing chamber and has a wavelength band capable of passing through a first part in the processing chamber and being absorbed into a second part in the processing chamber made of a material different from that of the first part, and heating the second part in the processing chamber by passing the heating lights through the first part in the processing chamber and irradiating the heating lights to the second part in the processing chamber.

Abstract: A method of dyeing a lens, comprises the steps of: (a) applying a dyeing ink containing a sublimable dye onto a base material to produce a dyeing base body; (b) placing the dyeing base body and the lens so that a dye-applied surface of the dyeing base body and a surface of the lens to be dyed face each other in noncontact relation, and heating the dyeing base body under substantially a vacuum condition to sublimate and deposit the applied dye on the lens; and (c) heating the dye deposited surface of the lens by irradiation of infrared rays from one direction to fix the deposited dye on the lens.

Abstract: Apparatuses and processes for maskless deposition of electronic and biological materials. The process is capable of direct deposition of features with linewidths varying from the micron range up to a fraction of a millimeter, and may be used to deposit features on substrates with damage thresholds near 100° C. Deposition and subsequent processing may be carried out under ambient conditions, eliminating the need for a vacuum atmosphere. The process may also be performed in an inert gas environment. Deposition of and subsequent laser post processing produces linewidths as low as 1 micron, with sub-micron edge definition. The apparatus nozzle has a large working distance—the orifice to substrate distance may be several millimeters—and direct write onto non-planar surfaces is possible.

Abstract: A spray nozzle 10 for a laser deposition apparatus comprises an array of nozzle apertures 16 arranged side-by-side, and a powder supply chamber 18 in fluid communication with the nozzle apertures 16. In use the powder supply chamber 18 supplies powder to the nozzle apertures 16 under pressure so as to cause a wide powder stream to be discharged from the array of nozzle apertures 16. When used with a laser deposition apparatus 100, a relatively wide coating of a uniform thickness can be deposited.

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: An electroless plating apparatus is provided. The electroless plating apparatus includes a wafer holder; a chemical dispensing nozzle over the wafer holder; a conduit connected to the chemical dispensing nozzle; and a radiation source over the wafer holder.

Abstract: An injection nozzle having a nozzle body defining an injection cavity and at least one curing device integrally formed within the nozzle body.

Abstract: To provide a manufacturing method for an epitaxial wafer that alleviates distortions on a back surface thereof due to sticking between a wafer and a susceptor, thereby preventing decrease in flatness thereof due to a lift pin. A manufacturing method for an epitaxial wafer according to the present invention includes: an oxide film forming step in which an oxide film is formed on a back surface thereof; an etching step in which a hydrophobic portion exposing a back surface of the semiconductor wafer is provided by partially removing the oxide film; a wafer placing step in which the semiconductor wafer is placed; and an epitaxial growth step in which an epitaxial layer is grown on a main surface of the semiconductor wafer; and the diameter of the lift pin installation circle provided on a circle on a bottom face of a susceptor is smaller than that of the hydrophobic portion.

Abstract: A method including applying a coating composition on a substrate to form a coating, wherein the coating has a first surface roughness; transferring a pattern to the coating to form a patterned coating, wherein the patterned coating has a second surface roughness different from the first surface roughness; and curing the patterned coating to form a cured coating with a desired level of gloss.

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.