Abstract: A lower-layer film to which a fluorine-doped polymer is added is formed on a film to be processed. The lower-layer film is baked. An intermediate film is formed on the lower-layer film. A resist film is formed on the intermediate film. The resist film is baked. A resist protection film is formed. The resist film is immersion-exposed. The resist film is developed to form a resist pattern.

Abstract: A space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The invention also includes an integrated fluid flow network architecture, which may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.

Abstract: In a substrate treatment method for supplying a coating solution to a substrate with projections and depressions on a front surface thereof to form a coating film on the front surface of the substrate, the coating solution is supplied to the rotating substrate to form a coating film on the front surface of the substrate, and the substrate having the coating film formed thereon is heated to adjust an etching condition of the coating film. Next, the etching solution is supplied to the rotating substrate to etch the coating film, and thereafter the coating solution is supplied to the substrate to form a flat coating film on the front surface of the substrate. Thereafter, the substrate is heated to cure the coating film. This flattens the coating film with uniformity and high accuracy without undergoing a high-load process such as chemical mechanical polishing.

Abstract: Block copolymers can be self-assembled and used in methods as described herein for sub-lithographic patterning, for example. The block copolymers can be diblock copolymers, triblock copolymers, multiblock copolymers, or combinations thereof. Such methods can be useful for making devices that include, for example, sub-lithographic conductive lines.

Abstract: A keypad for an electronic device having metallic texture has rigidity and elasticity equivalent to those of stainless steel. The keypad is manufactured and includes a metal alloy board, a keypad body manufactured by primarily thermal-treating the metal alloy board to a rigidity enough to be molded and molding the primarily thermal-treated metal alloy board with a press, a button portion formed by secondarily thermal-treating the keypad body to cure the keypad body and etching the secondarily thermal-treated keypad body by means of etching processing, and urethane rubber and a silicon pad attached to a back surface of the keypad body which has undergone anodizing processing and various colorations.

Abstract: A method of fabricating a semiconductor device according to one embodiment includes: forming a porous film above a semiconductor substrate; forming an altered layer by applying alteration treatment to a first pattern region of the porous film up to a predetermined depth; forming a first concave portion by etching a second pattern region to a depth deeper than the predetermined depth, the second pattern region at least partially overlapping the first pattern region of the porous film having the altered layer formed therein; and forming a second concave portion by selectively removing the altered layer from the porous film after forming the first concave portion.

Abstract: A method of patterning a transparent conductive film adaptive for selectively etching a transparent conductive film without any mask processes, a thin film transistor for a display device using the same and a fabricating method thereof are disclosed. In the method of patterning the transparent conductive film, an inorganic material substrate is prepared. An organic material pattern is formed at a desired area of the inorganic material substrate. A thin film having a different crystallization rate depending upon said inorganic material and said organic material is formed. The thin film is selectively etched in accordance with said crystallization rate.

Abstract: The present invention relates to the self-assembly of a spherical-morphology block copolymer into V-shaped grooves of a substrate. Although spherical morphology block copolymers typically form a body-centered cubic system (bcc) sphere array in bulk, the V-shaped grooves promote the formation of a face-centered cubic system (fcc) sphere array that is well ordered. In one embodiment, the (111) planes of the fcc sphere array are parallel to the angled side walls of the V-shaped groove. The (100) plane of the fcc sphere array is parallel to the top surface of the substrate, and may show a square symmetry among adjacent spheres. This square symmetry is unlike the hexagonal symmetry seen in monolayers of spherical domains and is a useful geometry for lithography applications, especially those used in semiconductor applications.

Abstract: An optical waveguide device includes: a substrate which has an electro-optical effect; an optical waveguide which is formed on the substrate and/or inside the substrate; and an in-substrate electrode which is formed of a metal and provided inside the substrate.

Abstract: The present invention is directed to the formation of sublithographic features in a semiconductor structure using self-assembling polymers. The self-assembling polymers are formed in openings in a hard mask, annealed and then etched, followed by etching of the underlying dielectric material. At least one sublithographic feature is formed according to this method. Also disclosed is an intermediate semiconductor structure in which at least one interconnect wiring feature has a dimension that is defined by a self-assembled block copolymer.

Abstract: A method of reclaiming silicon wafers including a film removal process, a polishing process, and a cleaning process, wherein a heating/removal process for removing a silicon wafer surface part by heating at 150-300° C. for 20 minutes to 5 hours is further included between the film removal process and the polishing process is provided. The present invention provides a useful method of reclaiming silicon wafers that removes Cu not only deposited on a surface but also penetrated inside of a silicon wafer, and does not give Cu contamination inside of the silicon wafer.

Abstract: A space-conserving integrated fluid delivery system which is particularly useful for gas distribution in semiconductor processing equipment. The invention also includes an integrated fluid flow network architecture, which may include, in addition to a layered substrate containing fluid flow channels, various fluid handling and monitoring components. The layered substrate is diffusion bonded, and the various fluid handling and monitoring components may be partially integrated or fully integrated into the substrate, depending on design and material requirements.

Abstract: A method is proposed which will enable cavities having optically transparent walls to be produced simply and cost-effectively in a component by using standard methods of microsystems technology. For this purpose, a silicon region is first produced, which is surrounded on all sides by at least one optically transparent cladding layer. At least one opening is then produced in the cladding layer. Over this opening, the silicon surrounded by the cladding layer is dissolved out, forming a cavity within the cladding layer. In this context, the cladding layer acts as an etch barrier layer.

Abstract: A plasma etching system having a wafer chuck with a magnet that applies a magnetic field over a wafer to shield the wafer from charged particles. The magnetic field is parallel with the wafer, and is strongest near the wafer surface. The magnetic field may be straight, or circular. In operation, electrons are deflected from the wafer by the Lorentz force, the wafer acquires a positive charge, and ions are deflected by electrostatic repulsion. Neutral species are allowed through the magnetic field, and they collide with the wafer. Neutral species generally provide more isotropic and material-selective etching than charged particles, so the present magnetic field tends to increase etch isotropy and material selectivity. Also, the magnetic field can protect the wafer from seasoning processes designed to clean unwanted films from the chamber surface as seasoning processes typically rely on etching by charged particles.

Abstract: A polymer thin film in which cylindrical phases are distributed in a continuous phase and are oriented in a pass-through-direction of the film includes at least: a first block copolymer including at least a block chain A1, as a component of the continuous phase, composed of polymerized monomers a1, and a block chain B1, as a component of the cylindrical phases, composed of polymerized monomers b1; and a second block copolymer including at least a block chain A2, as a component of the continuous phase, composed of polymerized monomers a2, and a block chain B2, as a component of the cylindrical phases, composed of polymerized monomers b2, with the second copolymer having a degree of polymerization different from that of the first copolymer. A film thickness of the polymer thin film and an average center distance between adjacent cylindrical phases have a relation represented by a predetermined expression.

Abstract: The disclosure relates to metal nanoparticle compositions and methods of making such nanoparticle compositions that are useful for the production of electrically conductive features and catalysts.

Abstract: A method is disclosed for bonding two elements by means of a bonding agent such as a glue layer, wherein the bonding agent is removable, and wherein between the bonding agent and at least one element, a sacrificial layer is applied which is selectively removable with respect to that element. According to embodiments, the elements comprise a die or a substrate bonded to a carrier wafer. The nature and type of the die or substrate and of the carrier can vary within the scope of embodiments of the invention. Also disclosed is a composite substrate obtainable by methods of the invention.

Abstract: Methods for processing wafers, wafer processing apparatus, micro-fluid ejection head substrates, and etching process are provided. One such method includes applying a clamping voltage to an electrostatic chuck sufficient to hold a wafer in a substantially planerized orientation adjacent to the electrostatic chuck. A heat transfer fluid flows through a three dimensional space between the wafer and the electrostatic chuck to cool the wafer by convective heat transfer during wafer processing.

Abstract: A method and apparatus for fabricating or altering a microstructure use means for heating to facilitate a local chemical reaction that forms or alters the submicrostructure.

Abstract: A method of patterning a transparent conductive film adaptive for selectively etching a transparent conductive film without any mask processes, a thin film transistor for a display device using the same and a fabricating method thereof are disclosed. In the method of patterning the transparent conductive film, an inorganic material substrate is prepared. An organic material pattern is formed at a desired area of the inorganic material substrate. A thin film having a different crystallization rate depending upon said inorganic material and said organic material is formed. The thin film is selectively etched in accordance with said crystallization rate.

Abstract: A device and a method is provided for irradiating wafers with low-intensity UV light to prevent blistering during the subsequent photostabilization of the photoresist.

Abstract: The invention relates to a method for removing an area of a layer of a component consisting of metal or a metal compound. According to prior art, corrosion products of a component are removed in a first step by applying a molten mass or by heating in a voluminous powder bed. This requires high temperatures or a large amount of space. The inventive method for removing corrosion products of a component is characterized in that a cleaning agent is applied locally, which removes the corrosion products by means of a gaseous reaction product.

Abstract: An inexpensive and rapid method for fabricating arrays of hollow microneedles uses a photoetchable glass. Furthermore, the glass hollow microneedle array can be used to form a negative mold for replicating microneedles in biocompatible polymers or metals. These microneedle arrays can be used to extract fluids from plants or animals. Glucose transport through these hollow microneedles arrays has been found to be orders of magnitude more rapid than natural diffusion.

Abstract: It comprises the steps of: a) arranging a dielectric substrate (1) with at least one conducting plate (2) joined by an adhesive (8) to at least one of its sides; b) removing areas of said plate (2) by selective chemical milling to provide conducting tracks (5) joined to the substrate (1) and separated by spaces between tracks (6); c) applying and hardening by radiation an electroinsulating filler material (7) to fill said spaces between tracks (6), covering the tracks (5); d) applying an abrasion treatment to obtain flush upper surfaces (3) of the filler material (7) and of the tracks; and e) cooling, after step c) and during step d), the printed circuit board to reduce the temperature of the filler material (7) to under its glass transition temperature.

Abstract: A laser direct write method creates true three dimensional structures within photocerams using an focused pulsed ultraviolet laser with a wavelength in a weakly absorbing region of the photoceram material. A critical dose of focused laser UV light selectively exposes embedded volumes of the material for subsequent selective etching. The photoceram material exposure is nonlinear with the laser fluence and the critical dose depends on the square of the per shot fluence and the number of pulses. The laser light is focused to a focal depth for selective volumetric exposure of the material within a focal volume within the remaining collateral volumes that is critically dosed for selecting etching and batch fabrication of highly defined embedded structures.

Abstract: A method of producing a thin film magnetic device comprising forming a thin film of magnetic material over a surface of a substrate having a controlled surface topography, wherein the surface of the substrate is first subject to isotropic etching so as to increase the capacity of the substrate surface to induce a high orientation ratio in a thin film of magnetic material formed over the substrate surface without a reduction in the smoothness of the substrate; and a method of modifying a thin film magnetic device comprising a thin film of a magnetic material, the method comprising the step of subjecting a surface of the thin film magnetic device having a controlled surface topology to isotropic etching so as to increase the orientation ratio of the thin film magnetic device without reducing the smoothness of the surface of the thin film magnetic device.

Abstract: The present invention provides a method for producing a high-quality capillary tube used in an electrophoresis apparatus in a safe and inexpensive manner. A polymer coating on a capillary tube is converted into gas and removed through an oxidative reaction with oxygen radicals resulting from ozone decomposition.

Abstract: A low cost, durable mask for use in structuring anodically bondable glass materials and other structurable glass materials.

Abstract: A method for treating a silicon substrate is described. The silicon substrate is placed into a sputtering equipment. A sputtering step is performed to simultaneously dry clean and amorphize the silicon substrate surface by using the sputtering equipment. A titanium film is deposited on the silicon substrate by the sputtering equipment.

Abstract: A micromachined vertical vibrating gyroscope consists of three single crystal silicon assemblies: an outer single crystal silicon assembly, an intermediate single crystal silicon assembly, and an inner single crystal silicon assembly. The outer assembly includes a plurality of arc-shaped anchors arranged in a circle and extending from a single crystal silicon substrate coated with an insulating annulus thereon. The intermediate assembly is a suspended wheel concentric with the arc-shaped anchors. The inner assembly is a suspended hub concentric with the circle formed by the anchors and having no axle at its center. The three assemblies are connected to each other through several flexures. The intermediate suspended wheel is driven into rotational vibration by lateral comb capacitors. Input angular rates are measured by two vertical capacitors.

Abstract: We have discovered a method of reducing the effect of material sputtered/etched during the preheating of a substrate. One embodiment of the method pertains to preheating a substrate which includes a metal-containing layer which is to be pattern etched subsequent to preheating. The method includes exposing the substrate to a preheating plasma which produces a deposit or residue during preheating which is more easily etched than said metal-containing layer during the subsequent plasma etching of said metal-containing layer.

Abstract: A process for gas-phase etching of actinide oxides from a substrate by using plasma power comprising the steps of: a) preheating actinide oxides on the substrate within a process chamber filled with fluorine-containing gas and exposing it to plasma power, and subsequently b) etching actinide oxides from the substrate using a plasma gas-phase reactant system.

Abstract: We have discovered a method of reducing the effect of material sputtered/etched during the preheating of a substrate. One embodiment of the method pertains to the preheating of a substrate which includes a material which is to be pattern etched at a temperature in excess of 150° C. The method comprises exposing the substrate to a preheating plasma generated from a plasma source gas which includes a reactive gas that aids in the production of a sputtered/etched residue during the preheating which is more easily etched during a subsequent pattern etching step than the material which is being pattern etched. In another embodiment of the method, the reactive gas in the preheating plasma source gas is slightly reactive with the material which is to etched during the subsequent pattern etching step.

Abstract: The apparatus of the present invention provides for the dual use of a UV source to heat a substrate and to facilitate photochemistry necessary for the treatment of the substrate. The present invention also provides a method for processing a substrate by heating the substrate to a temperature above ambient via UV radiation at a first power level and conditioning the substrate by exposing the substrate to a photochemically (UV) reactive chemical, or a reactive chemical that can react with a compound on the surface of the substrate to form a photochemically reactive compound, in the presence of UV radiation at a second power level.

Abstract: Process for the formation of at least one concave relief (124, 145) in a substrate comprising forming at least one embossment of material subject to creep (100) on the substrate (120), —heating of the material subject to creep to a temperature sufficiently high to cause creep of the said material, and—etching of the substrate and the crept material to form relief in the substrate. According to the invention, the crept material is solidified in a state in which it has a concave relief.

Abstract: A sensor for measuring a physical amount such as an amount of air includes a membrane structure composed of metal stripes sandwiched between first and second insulating layers. A metal layer made of platinum or the like is formed on the first insulating layer and then heat-treated to improve its properties. Then, the metal layer is etched into a form of the metal stripes. The second insulating layer made of a material such as silicon dioxide is formed on the etched metal stripes. Since the metal layer is heat-treated before it is etched into the form of metal stripes, the metal stripes are not deformed by the heat-treatment. The second insulating layer can be formed on the metal stripes without generating cracks in the second insulating layer.

Abstract: Provided is a method of etching an etch layer using a polycarbonate layer as a mask. The method includes placing an etch structure in a reaction chamber, the etch structure including an etch layer underlying a polycarbonate layer, the polycarbonate layer having apertures. The etch layer is then etched using a low-pressure high density plasma generate at a pressure in the range of approximately 1 to 30 millitorr where the ionized particle concentration is at least 1011 ions/cm3 and where the ionized particle concentration is substantially equal throughout the volume of the reaction chamber. To increase the etch rate, the etch structure can be cooled or biased. To decrease the etch rate, an inert gas can be added to the process gas mixture used to form the plasma.

Abstract: An epitaxial layer is formed on a P type silicon substrate in which a plurality of P+ buried layer regions, a plurality of N+ buried layer regions, and a P+ field layer region occupying most of the substrate surface are diffused. The substrate is loaded in a reactor with a carrier gas. The substrate is pre-baked at a temperature of approximately 850° C. As the substrate is heated to a temperature of 1050° C., N+ dopant gas is injected into the carrier gas to suppress auto doping due to P+ atoms that escape from the P+ buried layer regions. The substrate is subjected to a high temperature bake cycle in the presence of the N+ dopant gas. A first thin intrinsic epitaxial cap layer is deposited on the substrate, which then is subjected to a high temperature gas purge cycle at 1080° C. A second thin intrinsic epitaxial cap layer then is deposited on the first, and a second high temperature gas purge cycle is performed at 1080° C.

Abstract: A method of producing a surface acoustic wave device by use of a flip chip process, includes the steps of forming on a piezoelectric substrate at least one interdigital transducer and a plurality of electrode pads electrically connected to the interdigital transducer, forming bumps on the respective electrode pads, and providing an insulating film at a region other than a region where the bumps are formed.

Abstract: A process chamber (12) is used for plasma etching of a wafer (21) disposed therein. A gas mixture supplied to the chamber eventually passes through openings (28) in a baffle plate (27). After the chamber has been cleaned, several test wafers are etched under conditions which are equivalent, except that a different gas pressure is used for each wafer. The effective etch rates are measured from these wafers, and used to extrapolate a reference curve (141) representing effective etch rate relative to pressure. During subsequent production use of the chamber, a similar procedure is periodically used to generate a test curve (142). The peak values (143, 144) of the reference and test curves are compared (147) to monitor process drift within the chamber. The peak values of respective curves obtained from two or more similar chambers can be compared to evaluate performance differences between the chambers.

Abstract: Copper can be pattern etched in a manner which provides the desired feature dimension and integrity, at acceptable rates, and with selectivity over adjacent materials. To provide for feature integrity, the portion of the copper feature surface which has been etched to the desired dimensions and shape must be protected during the etching of adjacent feature surfaces. This is particularly important for feature sizes less than about 0.5 &mgr;m, where presence of even a limited amount of a corrosive agent can eat away a large portion of the feature.

Abstract: A system of coupling optical energy in a waveguide mode, into a resonator that operates in a whispering gallery mode. A first part of the operation uses a fiber in its waveguide mode to couple information into a resonator e.g. a microsphere. The fiber is cleaved at an angle &PHgr; which causes total internal reflection within the fiber. The energy in the fiber then forms an evanescent field and a microsphere is placed in the area of the evanescent field. If the microsphere resonance is resonant with energy in the fiber, then the information in the fiber is effectively transferred to the microsphere.

Abstract: A laser direct write method creates true three dimensional structures within photocerams using an focused pulsed ultraviolet laser with a wavelength in a weakly absorbing region of the photoceram material. A critical dose of focused laser UV light selectively exposes embedded volumes of the material for subsequent selective etching. The photoceram material exposure is nonlinear with the laser fluence and the critical dose depends on the square of the per shot fluence and the number of pulses. The laser light is focused to a focal depth for selective volumetric exposure of the material within a focal volume within the remaining collateral volumes that is critically dosed for selecting etching and batch fabrication of highly defined embedded structures.

Abstract: We have discovered a method of reducing the effect of material sputtered/etched during the preheating of a substrate. One embodiment of the method pertains to the preheating of a substrate which includes a material which is to be pattern etched at a temperature in excess of 150° C. The method comprises exposing the substrate to a preheating plasma generated from a plasma source gas which includes a reactive gas that aids in the production of a sputtered/etched residue during the preheating which is more easily etched during a subsequent pattern etching step than the material which is being pattern etched. In another embodiment of the method, the reactive gas in the preheating plasma source gas is slightly reactive with the material which is to etched during the subsequent pattern etching step.

Abstract: A method is disclosed for speeding workpiece thoughput in low pressure, high temperature semiconductor processing reactor. The method includes loading a workpiece into a chamber at atmospheric pressure, bringing the chamber down to an intermediate pressure, and heating the wafer while under the intermediate pressure. The chamber is then pumped down to the operating pressure. The preferred embodiments involve single wafer plasma ashers, where a wafer is loaded onto lift pins at a position above a wafer chuck, the pressure is rapidly pumped down to about 40 Torr by rapidly opening and closing an isolation valve, and the wafer is simultaneously lowered to the heated chuck. Alternatively, the wafer can be pre-processed to remove an implanted photoresist crust at a first temperature and the chamber then backfilled to about 40 Torr for further heating to close to the chuck temperature. At 40 Torr, the heat transfer from the chuck to the wafer is relatively fast, but still slow enough to avoid thermal shock.

Abstract: A thin film made of an amorphous material having a supercooled liquid phase region is formed on a substrate. Then, the thin film is processed by wet-etching, etc. to form a thin film-processed body having, for example, a one side-fixed beam like shape. Subsequently, the thin film-processed body is heated to a temperature within the supercooled liquid phase region and held at the temperature for 0.5-5 minutes. Thereafter, the thin film-processed body is cooled down to room temperature. Then, at least a part of the substrate is removed by wet-etching, etc. to form a thin film-planar structure composed of the thin film-processed body having the one side-fixed beam like shape.

Abstract: A sensor for measuring a physical amount such as an amount of air includes a membrane structure composed of metal stripes sandwiched between first and second insulating layers. A metal layer made of platinum or the like is formed on the first insulating layer and then heat-treated to improve its properties. Then, the metal layer is etched into a form of the metal stripes. The second insulating layer made of a material such as silicon dioxide is formed on the etched metal stripes. Since the metal layer is heat-treated before it is etched into the form of metal stripes, the metal stripes are not deformed by the heat-treatment. The second insulating layer can be formed on the metal stripes without generating cracks in the second insulating layer.

Abstract: An apparatus and method which uses a plasma having a density gradient in order to accelerate ions, thereby producing a flow of energetic ions and neutral parties. The plasma gradient is produced by applying a non-uniform magnetic field to the plasma and/or providing non-uniform RF power to the plasma. Since the voltage within a plasma (i.e. the plasma potential) is dependent upon the density of the plasma, the plasma gradient produces an electric field within the plasma, which can be used to accelerate ions e.g., toward a substrate. This technique produces accelerated particles of lower energy than conventional systems, thereby causing less damage to a work piece being processed. In addition, since the ions accelerated by the apparatus have lower speeds than those accelerated by conventional systems, a larger proportion of the ions having time to recombine with free electrons before striking the work piece being processed.

Abstract: A method of controlling bulk absorption of atomic hydrogen and facilitating degassing of hydrogen from aluminum alloy workpieces during heat treatments in furnaces with ambient and/or moisture-laden atmospheres to prepare for fabrication in sequential working stages, the method includes exposing the surface of the workpieces to an etching process after each or any of the sequential working stages, and subjecting the workpieces to a final etch treatment using an inorganic alkaline or acidic etch solution modified by an addition of five to twenty-five weight percent transition metal chloride salt before being subjected to said heat treatment. The workpieces exposed to the transition metal chloride salt modified etch solution are subjected to the heat treatment. The etch solution is used to substantially decrease the amount of atomic hydrogen entering the bulk of the workpieces and to facilitate removal of atomic and molecular hydrogen from the bulk of the workpieces during the heat treatment.

Abstract: A process for fabricating an accelerometer, which includes providing a substrate with a layer of electrically conductive material on the substrate, micromachining the substrate to form a central electrical heater, a pair of temperature sensitive elements, and a cavity beneath the heater and the temperature sensing elements. Each temperature sensing element is spaced apart from said heater a distance in the range of 75 to 400 microns. The temperature sensing elements are located on opposite sides of the heater, thereby forming an accelerometer.