Entries |
Document | Title | Date |
20080199601 | Method for Forming Tantalum Nitride Film - The present invention relates to a tantalum nitride film-forming method comprising the steps of introducing a raw gas consisting of a coordination compound constituted by an elemental tantalum (Ta) having a coordinated ligand represented by the general formula: N═(R, R′) (in the formula, R and R′ may be the same or different and each represents an alkyl group having 1 to 6 carbon atoms) and an oxygen atom-containing gas into a vacuum chamber to thus form a surface adsorption layer having a thickness corresponding to one or several atoms, which consists of a compound represented by the formula: TaO | 08-21-2008 |
20080206450 | Thin metal film conductors and their manufacture - Metal solutions such as copper and nickel suitable for chemical solution deposition (CSD) are disclosed, and their manufacture into low resistivity thin metal films is disclosed. The films may be thermal processed at relatively low temperatures and may be co-fired with ultra low fire high K ceramic dielectrics. | 08-28-2008 |
20080241365 | Acoustic mirror structure for a bulk acoustic wave structure and method for fabricating same - According to one embodiment of the invention, an acoustic mirror structure situated in a bulk acoustic wave structure includes a number of alternating low acoustic impedance and high acoustic impedance layers situated on a substrate. Each high acoustic impedance layer includes a first mole percent of a primary metal and a second mole percent of a secondary metal, where the first mole percent of the primary metal is greater than the second mole percent of the secondary metal, and where the secondary metal causes each high acoustic impedance layer to have increased resistivity. According to this exemplary embodiment, the second mole percent of the secondary metal can cause only a minimal decrease in density of each high acoustic impedance layer. The increased resistivity of each high acoustic impedance layer can cause a reduction in electrical loss in the bulk acoustic wave structure. | 10-02-2008 |
20090004371 | AMORPHOUS LITHIUM LANTHANUM TITANATE THIN FILMS MANUFACTURING METHOD - An amorphous lithium lanthanum titanate (LLTO) thin film is produced by the sol-gel method wherein a polymer is mixed with a liquid alcohol to form a first solution. A second solution is then prepared by mixing a lanthanum alkoxide with an alcohol. The first solution is then mixed with the lanthanum based second solution. A lithium alkoxide and a titanium alkoxide are then also added to the lanthanum based second solution. This process produces a batch of LLTO precursor solution. The LLTO precursor solution is applied to a substrate to form a precursor layer which is then dried. The coating techniques that may be used include spin coating, spraying, casting, dripping, and the like, however, the spin coating technique is the preferred method recited herein. | 01-01-2009 |
20090087550 | SEQUENTIAL FLOW DEPOSITION OF A TUNGSTEN SILICIDE GATE ELECTRODE FILM - A method is provided for forming WSi | 04-02-2009 |
20090169730 | METHOD OF FORMING CONDUCTORS AT LOW TEMPERATURES USING METALLIC NANOCRYSTALS AND PRODUCT - Metallic nanoparticles are provided which can be used in forming metallic film conductors at reduced temperatures compatible with plastic carriers for the film conductors. This is realized by using a lower molecular weight organic encapsulant of the nanoparticle and thereby reducing the temperature at which the organic encapsulant evaporates. Further, the sintering or melting temperature of the metallic nanoparticle is reduced by using a lower sized nanoparticle, thereby increasing the particle surface area relative to the particle volume and thus reducing the required heat and melting temperature of the particle. | 07-02-2009 |
20090176013 | Metal ink for ink-jet printing - The present invention relates to a metal ink that comprises metal nano particles that are capped by a capping material; and an organic solvent that has a solubility parameter for swelling the capping material. In addition, the present invention relates to a method for producing a metal wire, which comprises the steps of jetting the metal ink by using an ink-jet nozzle, drying the metal ink, and firing the metal ink. | 07-09-2009 |
20090202710 | ATOMIC LAYER DEPOSITION OF TANTALUM-CONTAINING MATERIALS USING THE TANTALUM PRECURSOR TAIMATA - In one embodiment, a method for forming a tantalum-containing material on a substrate is provided which includes heating a liquid tantalum precursor containing tertiaryamylimido-tris(dimethylamido) tantalum (TAIMATA) to a temperature of at least 30° C. to form a tantalum precursor gas and exposing the substrate to a continuous flow of a carrier gas during an atomic layer deposition process. The method further provides exposing the substrate to the tantalum precursor gas by pulsing the tantalum precursor gas into the carrier gas and adsorbing the tantalum precursor gas on the substrate to form a tantalum precursor layer thereon. Subsequently, the tantalum precursor layer is exposed to at least one secondary element-containing gas by pulsing the secondary element-containing gas into the carrier gas while forming a tantalum barrier layer on the substrate. The tantalum barrier layer may contain tantalum, tantalum nitride, tantalum silicon nitride, tantalum boron nitride, tantalum phosphorous nitride or tantalum oxynitride. | 08-13-2009 |
20090214767 | DOPING WITH ALD TECHNOLOGY - Methods for doping a substrate surface or the interface between two thin films by atomic layer deposition process (ALD) are provided. By blocking some of the available binding sites for a dopant precursor with a blocking reactant, the concentration and uniformity of dopant deposited can be controlled. The blocking reactant may be introduced prior to introduction of the dopant precursor in the ALD process, or the blocking reactant and the dopant precursor can be introduced simultaneously. | 08-27-2009 |
20090220684 | PROCESS OF APPLYING A COATING SYSTEM - A coating process for an article having a substrate formed of a metal alloy that is prone to the formation of a secondary reaction zone (SRZ). The coating process forms a coating system that includes an aluminum-containing overlay coating and a stabilizing layer between the overlay coating and the substrate. The overlay coating contains aluminum in an amount greater by atomic percent than the metal alloy of the substrate, such that there is a tendency for aluminum to diffuse from the overlay coating into the substrate. The stabilizing layer is predominantly or entirely formed of at least one platinum group metal (PGM), namely, platinum, rhodium, iridium, and/or palladium. The stabilizing layer is sufficient to inhibit diffusion of aluminum from the overlay coating into the substrate so that the substrate remains essentially free of an SRZ that would be deleterious to the mechanical properties of the alloy. | 09-03-2009 |
20100062149 | METHOD FOR TUNING A DEPOSITION RATE DURING AN ATOMIC LAYER DEPOSITION PROCESS - Embodiments of the invention provide methods for depositing a material on a substrate within a processing chamber during a vapor deposition process, such as an atomic layer deposition (ALD) process. In one embodiment, a method is provided which includes sequentially exposing the substrate to a first precursor gas and at least a second precursor gas while depositing a material on the substrate during the ALD process, and continuously or periodically exposing the substrate to a treatment gas prior to and/or during the ALD process. The deposition rate of the material being deposited may be controlled by varying the amount of treatment gas exposed to the substrate. In one example, tantalum nitride is deposited on the substrate and the alkylamino metal precursor gas contains a tantalum precursor, such as pentakis(dimethylamino) tantalum (PDMAT), the second precursor gas contains a nitrogen precursor, such as ammonia, and the treatment gas contains dimethylamine (DMA). | 03-11-2010 |
20100062150 | PRECURSOR COMPOSITIONS FOR ATOMIC LAYER DEPOSITION AND CHEMICAL VAPOR DEPOSITION OF TITANATE, LANTHANATE, AND TANTALATE DIELECTRIC FILMS - Barium, strontium, tantalum and lanthanum precursor compositions useful for atomic layer deposition (ALD) and chemical vapor deposition (CVD) of titanate thin films. The precursors have the formula M(Cp) | 03-11-2010 |
20100129535 | Vapor Deposition Processes for Tantalum Carbide Nitride Materials - Embodiments of the invention generally provide methods for depositing and compositions of tantalum carbide nitride materials. The methods include deposition processes that form predetermined compositions of the tantalum carbide nitride material by controlling the deposition temperature and the flow rate of a nitrogen-containing gas during a vapor deposition process, including thermal decomposition, CVD, pulsed-CVD, or ALD. In one embodiment, a method for forming a tantalum-containing material on a substrate is provided which includes heating the substrate to a temperature within a process chamber, and exposing the substrate to a nitrogen-containing gas and a process gas containing a tantalum precursor gas while depositing a tantalum carbide nitride material on the substrate. The method further provides that the tantalum carbide nitride material is crystalline and contains interstitial carbon and elemental carbon having an interstitial/elemental carbon atomic ratio of greater than 1, such as about 2, 3, 4, or greater. | 05-27-2010 |
20100143583 | ENERGY DEVICE AND METHOD FOR PRODUCING THE SAME - A negative active material thin film containing silicon as a main component is formed on a collector. A composition gradient layer, in which a composition distribution of a main component element of the collector and silicon is varied smoothly, is formed in the vicinity of the interface between the collector and the negative active material thin film. The composition gradient layer contains at least one kind of third element selected from W, Mo, Cr, Co, Fe, Mn, Ni, and P, in addition to the elements contained in the collector and the elements contained in the negative active material thin film. The third element irregularizes the atomic arrangement at the interface between the collector and the negative active material thin film. Therefore, even when the negative active material absorbs/desorbs ions during charging/discharging, thereby allowing silicon particles in the negative active material to expand/contract, the strain at the interface involved in the expansion/contraction of the silicon particles is alleviated, and peeling at the interface between the negative active material thin film and the collector is suppressed. Consequently, cycle characteristics are enhanced. | 06-10-2010 |
20100159128 | Niobium 2-ethylhexanoate derivative, method of producing the derivative, organic acid metal salt composition containing the derivative, and method of producing thin film using the composition - The present invention provides a niobium 2-ethylhexanoate derivative having a niobium content of from 13 to 16 mass % and a carbon content within a range of from 50 to 58 mass %, the niobium 2-ethylhexanoate derivative consisting only of: niobium atoms, oxygen atoms, and 2-ethylhexanoic acid residues; the niobium 2-ethylhexanoate derivative can be produced by reacting pentakis(alkoxy)niobium with 2-ethylhexanoic acid; further, the organic acid metal salt composition of the present invention includes the niobium 2-ethylhexanoate derivative, a metal precursor other than niobium, and at least one kind of an organic solvent; and the thin film including a niobium element and metal other than niobium can be formed on a substrate by applying the organic acid metal salt composition on the substrate and heating the substrate with the applied organic acid metal salt composition. | 06-24-2010 |
20100209599 | Electrically Conductive Composition - An electrically conductive composition comprising a binder and filler particles in which at least a portion of the particles are silver-plated. In one embodiment the composition comprises a binder such as a polyurethane, electrically conductive filler particles, silver-plated filler particles and solvent. | 08-19-2010 |
20100215845 | DLI-MOCVD PROCESS FOR MAKING ELECTRODES FOR ELECTROCHEMICAL REACTORS - This method for fabricating an electrode for electrochemical reactor, in which the said electrode comprises a diffusion layer and a catalyst layer, consists in that the step of depositing the catalyst on the diffusion layer is carried out by the DLI-MOCVD process, the diffusion layer being made of porous carbon. | 08-26-2010 |
20100266753 | CONNECTOR CHIP AND MANUFACTURING METHOD THEREOF - The present invention provides a connector chip capable of preventing electrical shorting between adjoining electrodes and also capable of readily connecting a plurality of electrodes on a first circuit substrate and a plurality of electrodes on a second circuit substrate without using a dedicated mounting device or the like. A plurality of conductive paths | 10-21-2010 |
20100272884 | SOLDER BALL PRINTING APPARATUS AND SOLDER BALL PRINTING METHOD - The present invention provides a solder ball printing apparatus and a solder ball printing method in which solder balls are uniformly dispersed on a mask surface and are loaded into an opening area of the mask. | 10-28-2010 |
20100291291 | PAINT COMPOSITION - This invention relates to the field of an electromagnetic (EM) field shielding paint compositions, in particular, those capable of providing substantially non metallic finish. The paint composition finds particular use in attenuating EM signals that may be used to carry data between communication devices, especially mobile phone and wi-fi devices. EM field shielding paints are typically available in jet-black or bright metallic finishes and usually possess limited scratch & abrasion resistance. The paint composition provides a one-pot solution to furnish a composition which has the visual appearance of a domestic type paint i.e. one with a non-metallic finish, with the ability to shield electromagnetic radiation. The composition comprises a supported metallic flake and a pigment, which have been provided in a narrowly defined range to furnish a desirable non-metallic appearance and possess electromagnetic shielding properties. | 11-18-2010 |
20110097480 | SENSOR WITH LAYERED ELECTRODES - A thin film sensor, such as a glucose sensor, is provided for transcutaneous placement at a selected site within the body of a patient. The sensor includes several sensor layers that include conductive layers and includes a proximal segment defining conductive contacts adapted for electrical connection to a suitable monitor, and a distal segment with sensor electrodes for transcutaneous placement. The sensor electrode layers are disposed generally above each other, for example with the reference electrode above the working electrode and the working electrode above the counter electrode. The electrode layers are separated by dielectric layer. | 04-28-2011 |
20110293821 | PROCESS FOR THE PREPARATION OF PLATES FOR LEAD-ACID BATTERIES - To improve the procedure for producing plates for lead-acid batteries, it is proposed with the invention to expose the pasted plates to saturated steam in one phase of the procedure. | 12-01-2011 |
20110300292 | METHOD FOR MAKING LITHIUM BATTERY CATHODE COMPOSITE MATERIAL - A method for making a lithium battery cathode composite is provided. First, a plurality of lithium vanadium phosphate particles is provided. A lithium iron phosphate layer is then formed on an outer surface of each of the lithium vanadium phosphate particle by coating a lithium iron phosphate precursor slurry, thereby forming the lithium battery cathode composite. | 12-08-2011 |
20120009336 | METHOD FOR APPLYING A LAYER OF ELECTRICAL INSULATION MATERIAL TO A SURFACE OF A CONDUCTOR - A method is provided for applying a layer ( | 01-12-2012 |
20120027929 | ELECTRODE COMPOSITE MATERIAL, METHOD FOR MAKING THE SAME, AND LITHIUM ION BATTERY USING THE SAME - A method for preparing a electrode composite material includes providing an aluminum nitrate solution and introducing a number of electrode active material particles into the aluminum nitrate solution, mixing the plurality of electrode active material particles with the aluminum nitrate solution to form a mixture, and adding a phosphate solution into the mixture to react with the aluminum nitrate solution and form an aluminum phosphate layer on surfaces of the electrode active material particles. Lastly, the electrode active material particles with the aluminum phosphate layer formed on the surfaces thereof are heat treated. | 02-02-2012 |
20120088028 | Process for Producing a Positive Nickel Hydroxide Electrode for a Nickel-Metal Hydride or Nickel Cadmium Storage Battery - In a process for producing a positive nickel hydroxide electrode for a nickel-metal hydride or nickel-cadmium storage battery a positive nickel hydroxide electrode produced in an earlier stage in the process is after-treated by introducing a saline solution into the active mass contained in an electrode carrier structure of the electrode in order to obtain a positive nickel hydroxide electrode with an improved current yield. | 04-12-2012 |
20120148734 | METHOD FOR MAKING SEPARATOR OF LITHIUM ION BATTERY - A method for making a separator of a lithium ion battery is provided. In the method, a modifier, and a porous membrane are provided. The modifier is a mixture of a phosphorus source having a phosphate radical, a trivalent aluminum source, and a metallic oxide provided in a liquid phase solvent. The modifier is coated on a surface of the porous membrane to form a coating layer. The coated porous membrane is dried to form a modifier layer disposed on the surface of the porous membrane. | 06-14-2012 |
20120164318 | PROCESS FOR PRODUCING ELECTROPHOTOGRAPHIC BELT - A process by which an electrophotographic belt having a protective layer more containing a filler on its surface side can be produced at a lower cost. The process is a process for producing an electrophotographic belt having a base layer and a surface layer, and has the steps of (1) forming on the base layer a wet coating of a surface layer forming coating liquid in which a filler has been dispersed and a binder resin stands dissolved; (2) making water adhere to the surface of the wet coating; and (3) drying the wet coating to form the surface layer. The filler is a filler the affinity of which for the water is higher than the affinity the filler has for a dispersion medium of the filler in the coating-liquid. | 06-28-2012 |
20120301607 | Connecting and Bonding Adjacent Layers with Nanostructures - An apparatus, comprising two conductive surfaces or layers and a nanostructure assembly bonded to the two conductive surfaces or layers to create electrical or thermal connections between the two conductive surfaces or layers, and a method of making same. | 11-29-2012 |
20130017322 | METHOD FOR FORMING AN INDIUM (III) SULFIDE FILMAANM WU; Chung-ShinAACI Kaohsiung CityAACO TWAAGP WU; Chung-Shin Kaohsiung City TWAANM Wang; Yu-YunAACI Hualien CountyAACO TWAAGP Wang; Yu-Yun Hualien County TWAANM Sheng; Pei-SunAACI Taipei CityAACO TWAAGP Sheng; Pei-Sun Taipei City TW - An embodiment of the invention provides a method for forming an indium (III) sulfide film, including providing a mixed solution containing a complexing agent, indium ions, and hydrogen sulfide ions; and contacting the mixed solution with a substrate to form an indium (III) sulfide film thereon, wherein the complexing agent has the following formula: | 01-17-2013 |
20130071557 | PROCESS OF FORMING TRANSPARENT CONDUCTIVE COATINGS WITH SINTERING ADDITIVES - A process is disclosed for the delayed sintering of metal nanoparticles in a self-assembled transparent conductive coating by incorporating a sintering additive into the water phase of the emulsion used to form the coating. The sintering additive reduces the standard reduction potential of the metal ion of the metal forming the nanoparticles by an amount greater than 0.1 V but less than the full reduction potential of the metal ion. Emulsion compositions used in the process are also disclosed. | 03-21-2013 |
20130089659 | Selenophene-Based Low Band Gap Active Layers by Chemical Vapor Deposition - Described herein are methods of oxidative chemical vapor deposition of polyselenophene films onto non-conductive surfaces. The methods involve a single, dry step. The polyselenophene films formed by these methods have a lower band gap than the theoretically predicted value. Low-band-gap conjugated polymers are attractive for their applications in many devices including field effect transistors, light-emitting diodes, electrochromic devices, and photovoltaics. | 04-11-2013 |
20130089660 | METHOD FOR MANUFACTURING A COMPOSITE POWDER THAT CAN BE USED TO CONSTITUTE ELECTRODE MATERIALS - The invention relates to a method for preparing a composite powder comprising a core, comprising an apatite and a coating layer covering all or part of said core, which coating layer comprises particles in a metal element and/or in an oxide thereof, which method successively comprises the following steps:
| 04-11-2013 |
20130224372 | METHOD FOR MAKING LITHIUM BATTERY CATHODE COMPOSITE MATERIAL OF LITHIUM IRON PHOSPHATE/LITHIUM VANADIUM PHOSPHATE COMPOSITE - A method for making a lithium battery cathode composite is provided. A mixed solution including a solvent, an iron salt, and a phosphate is provided. An alkaline solution is added in the mixed solution until the mixed solution has a pH value in a range from about 1.5 to about 5. The mixed solution is stirred to react the iron salt with the phosphate to form a number of iron phosphate precursor particles. The iron phosphate precursor particles are heated. A lithium source solution, a reducing agent, and the iron phosphate precursor particles are mixed to form a lithium iron phosphate precursor slurry. Outer surfaces of the lithium vanadium phosphate particles are coated with the lithium iron phosphate precursor. | 08-29-2013 |
20130230646 | METHOD AND APPARATUS FOR SOLID-STATE MICROBATTERY PHOTOLITHOGRAPHIC MANUFACTURE, SINGULATION AND PASSIVATION - A method for producing a thin film lithium battery is provided, comprising applying a cathode current collector, a cathode material, an anode current collector, and an electrolyte layer separating the cathode material from the anode current collector to a substrate, wherein at least one of the layers contains lithiated compounds that is patterned at least in part by a photolithography operation comprising removal of a photoresist material from the layer containing lithiated compounds by a process including a wet chemical treatment. Additionally, a method and apparatus for making lithium batteries by providing a first sheet that includes a substrate having a cathode material, an anode material, and a LiPON barrier/electrolyte layer separating the cathode material from the anode material; and removing a subset of first material to separate a plurality of cells from the first sheet. In some embodiments, the method further includes depositing second material on the sheet to cover the plurality of cells; and removing a subset of second material to separate a plurality of cells from the first sheet. | 09-05-2013 |
20130243946 | THERMOELECTRIC CONVERTER ELEMENT AND CONDUCTIVE MEMBER FOR THERMOELECTRIC CONVERTER ELEMENT - Disclosed is a low-cost thermoelectric converter element which is not decreased in electrical conductivity and thermal conductivity even under high temperature conditions. Specifically disclosed is a thermoelectric converter element ( | 09-19-2013 |
20130260023 | METHOD OF MANUFACTURING ELECTRODE BODY - A method of manufacturing an electrode body having a pair of electrode layers and an electrolyte layer disposed between the pair of electrode layers, by which an electrode body with reduced internal resistance can be manufactured, the method including the steps of: dispersing at least an active material capable of releasing or absorbing and releasing a metal ion, an electrolyte having conductivity for the metal ion, and a binder into a solvent, to prepare an electrode slurry, and applying the electrode slurry onto a base material, thereby forming a sheet-shaped electrode layer containing the binder; and dispersing at least an electrolyte having ion conductivity for the metal ion into a solvent to prepare an electrolyte slurry, and applying the electrolyte slurry onto the electrode layer, thereby forming a sheet-shaped electrolyte layer on the electrode layer. | 10-03-2013 |
20130260024 | METHOD FOR PRODUCING LITHIUM-BASED LAYERS BY CVD - A method for forming by CVD a lithium-based layer, according to which the lithium precursor is in liquid form in a mixture containing a solvent and a Lewis base. | 10-03-2013 |
20140004257 | SLURRY, PRODUCTION METHOD FOR SOLID ELECTROLYTE LAYER, PRODUCTION METHOD FOR ELECTRODE ACTIVE MATERIAL LAYER, AND PRODUCTION METHOD FOR ALL-SOLID-STATE BATTERY | 01-02-2014 |
20140004258 | METHOD OF PRODUCING MEMBER FOR ELECTROPHOTOGRAPHY AND COATING LIQUID | 01-02-2014 |
20140023779 | CONDUCTIVE COPPER PASTE COMPOSITION AND METHOD OF FORMING METAL THIN FILM USING THE SAME - There are provided a conductive copper paste composition and a method of forming a metal thin film using the same, wherein the conductive copper paste composition includes a back bone chain particle formed of copper (Cu) or a copper alloy containing copper (Cu); and an organic copper compound, have excellent electrical characteristics even at the time of low-temperature heat treatment process and suppress an increase in a viscosity depending on the time. | 01-23-2014 |
20140127398 | ELECTRODE STRUCTURES AND SURFACES FOR LI BATTERIES - This invention relates to methods of preparing positive electrode materials for electrochemical cells and batteries. It relates, in particular, to a method for fabricating lithium-metal-oxide electrode materials for lithium cells and batteries. The method comprises contacting a hydrogen-lithium-manganese-oxide material with one or more metal ions, preferably in an acidic solution, to insert the one or more metal ions into the hydrogen-lithium-manganese-oxide material; heat-treating the resulting product to form a powdered metal oxide composition; and forming an electrode from the powdered metal oxide composition. | 05-08-2014 |
20140335266 | Process For Preparing A Sol-Gel From At Least Three Metal Salts And Use Of The Process For Preparing A Ceramic Membrane - Method for preparing a sol-gel corresponding to the general formula (I): | 11-13-2014 |
20140342083 | CONDUCTIVE PASTES CONTAINING SILVER CARBOXYLATES - A paste composition includes a branched metal carboxylate, a solvent in which the branched metal carboxylate is soluble and a gelling agent, wherein the gelling agent is a linear metal carboxylate. The paste solvent may be an aromatic hydrocarbon solvent. The paste compositing may be free of polymeric binder. The paste may be used in forming conductive features on a substrate, including by screen printing or offset printing. | 11-20-2014 |
20140356524 | Nanostructure Dispersions And Transparent Conductors - A nanostructure dispersion comprising a mixture of host metallic nanostructures and metallic nanoparticles is provided. The nanostructures and nanoparticles are attracted to each other and remain attracted upon deposition of the mixture onto a substrate to form a transparent conductor. Also provided is a method of fabricating a transparent conductor. | 12-04-2014 |
20140377458 | METHOD OF AND APPARATUS FOR PRODUCING LITHIUM-ION SECONDARY BATTERY - Provided is a technique for effectively producing a lithium-ion secondary battery which exhibits a stable cell performance, and has a high degree of freedom of choice of its shape, an improved output density and a reduced size, at a reduced cost. A lithium-ion secondary battery having a laminar body wherein a positive electrode layer and a negative electrode layer are laminated on respective opposite surfaces of a solid electrolyte layer is produced by: forming a first vapor-deposited polymer film while introducing a positive electrode active substance into the first vapor-deposited polymer film, to form the positive electrode layer; forming a second vapor-deposited polymer film while introducing a negative electrode active substance into the second vapor-deposited polymer film, to form the negative electrode layer; and forming a third vapor-deposited polymer film while introducing a lithium-ion conductivity rendering substance into the third vapor-deposited polymer film, to form the solid electrolyte layer. | 12-25-2014 |
20150024124 | METHOD FOR MANUFACTURING SOLID ELECTROLYTE - Provided is a method for manufacturing a solid electrolyte including preparing a preparation solution by dissolving first polymers and second polymers in a cosolvent which includes a first cosolvent and a second cosolvent, preparing a mixture solution by adding a lithium solution to the preparation solution, preparing an electrolyte paste by removing the second cosolvent in the mixture solution, and forming an electrolyte film by coating the electrolyte paste on a substrate. | 01-22-2015 |
20150079277 | METHOD FOR COATING METALLIC SURFACES OF SUBSTRATES, AND OBJECTS COATED ACCORDING TO SAID METHOD - A method and composition for coating surfaces, a corresponding coating and the use of objects coated according to said method. A cleaned, metallic surface is contacted with an aqueous composition that is a dispersion or suspension, and drying and/or baking the organic coating or optionally, drying the organic coating and coating with an equivalent or additional coating composition prior to a drying and/or baking. The aqueous composition has a pH of 4 to 11 and contains an anionic polyelectrolyte in a quantity of 0.01 to 5.0 wt. % relative to the total mass of the composition, which may have a solids content of from 2 to 40 wt. %. The solids have an average particle size from 10 to 1000 nm. A coating forms on the basis of an ionogenic gel which binds cations released from the metallic surface that originate from a pretreatment stage or from the contacting. | 03-19-2015 |
20150132476 | CONDUCTIVE COMPOSITIONS COMPRISING METAL CARBOXYLATES - A conductive composition that comprises a branched metal carboxylate and one or more solvents. The solvents may be an aromatic hydrocarbon solvent. In embodiments, the branched metal carboxylate is a silver carboxylate. The conductive composition may be used in forming conductive features on a substrate, including by inkjet printing, screen printing or offset printing. | 05-14-2015 |
20160093874 | FLASH EVAPORATION OF SOLID STATE BATTERY COMPONENT - In an example, the present invention provides a method for forming a film of material for a solid state battery or other energy storage device. The method includes providing a first precursor species, and providing a second precursor species. The method also includes transferring the first precursor species through a first nozzle and outputting the first precursor species in a first molecular form and transferring the second precursor species through a second nozzle and outputting the second precursor species in a second molecular form. The method includes causing formation of first plurality of particles, ranging from about first diameter to about a second diameter, by intermixing the first precursor species with the second precursor species. The method also includes cooling the first plurality of particles at a rate of greater than 100° C./s to a specified temperature. | 03-31-2016 |
20160169827 | PHYSICAL VAPOR DEPOSITED BIOSENSOR COMPONENTS | 06-16-2016 |
20160177111 | Nanosilver Ink Compositions Comprising Clay Additives | 06-23-2016 |