Patent application number | Description | Published |
20130136937 | COMPOSITION FOR FORMING FERROELECTRIC THIN FILM, METHOD FOR FORMING FERROELECTRIC THIN FILM, FERROELECTRIC THIN FILM, AND COMPLEX ELECTRONIC COMPONENT - A composition for forming a ferroelectric thin film is a composition for forming a ferroelectric thin film consisting of a lead titanate-based perovskite film or a lead zirconate titanate-based complex perovskite film. The composition includes lead acetate, a stabilizing agent consisting of acetylacetone or diethanolamine, and polyvinylpyrrolidone. The ratio of the molar number of the monomer-converted polyvinylpyrrolidone to the molar number of the perovskite B site atoms included in the composition is more than 0 and less than 0.015. The weight-average molecular weight of the polyvinylpyrrolidone is 5,000 to 100,000. | 05-30-2013 |
20130252436 | DIELECTRIC THIN FILM, METHOD OF MANUFACTURING SAME, AND APPLICATIONS THEREOF - A dielectric thin film and a method of manufacturing the same, wherein the manufacture of a dielectric thin film having a composition represented by Ba | 09-26-2013 |
20130256580 | FERROELECTRIC THIN FILM-FORMING SOL-GEL SOLUTION - When a ferroelectric thin film-forming sol-gel solution contains a PZT-based compound, a viscosity-adjusting macromolecular compound including polyvinylpyrrolidone, and an organic dopant including a formamide-based solvent, the PZT-based compound is included at 17 mass % or more in terms of an oxide, the molar ratio of the polyvinylpyrrolidone to the PZT-based compound is PZT-based compound:polyvinylpyrrolidone=1:0.1 to 0.5 in terms of a monomer, and the formamide-based solvent is included at 3 mass % to 13 mass % of the sol-gel solution, it is possible to form a thick layer by coating the sol-gel solution once, the production efficiency improves, and crack-free and dense film formation even after calcination and firing becomes possible. | 10-03-2013 |
20130256582 | FERRITE THIN FILM-FORMING COMPOSITION MATERIAL, METHOD OF FORMING FERRITE THIN FILM, AND FERRITE THIN FILM FORMED USING THE SAME - To provide a ferrite thin film-forming composition material that is a composition material for forming a ferrite thin film by using the sol-gel method which can form a thin ferrite thin film having a uniform thickness and, furthermore, has excellent long-term storage stability, a method of forming a ferrite thin film using the above composition material, and a ferrite thin film formed by using the above method. A ferrite thin film-forming composition material is a composition material for forming a NiZn ferrite, CuZn ferrite, or NiCuZn ferrite thin film by using a sol-gel method, in which the composition material is formed by dissolving metallic raw materials in a solvent including acetonitrile, and the fraction of acetonitrile is 30 mass % to 60 mass % with respect to 100 mass % of the composition material. | 10-03-2013 |
20130256585 | METHOD OF FORMING FERRITE THIN FILM AND FERRITE THIN FILM OBTAINED USING THE SAME - A method of forming a ferrite thin film by carrying out a process for forming a coated film by coating a ferrite thin film-forming composition on a heat-resistant substrate and a process for calcining the coated film once or a plurality of times so that the thickness of the calcined film on the substrate becomes a desired thickness, and firing the calcined film formed on the substrate, in which the conditions for firing the calcined film formed on the substrate are under the atmosphere or an oxygen gas or inert gas atmosphere, a temperature-rise rate of 1° C./minute to 50° C./minute, a holding temperature of 500° C. to 800° C., and a holding time of 30 minutes to 120 minutes. | 10-03-2013 |
20130257228 | PZT-BASED FERROELECTRIC THIN FILM AND METHOD OF MANUFACTURING THE SAME - A PZT-based ferroelectric thin film formed on a lower electrode of a substrate having the lower electrode in which the crystal plane is oriented in a (111) axis direction, having an orientation controlling layer which is formed on the lower electrode and has a layer thickness in which a crystal orientation is controlled in a (100) plane preferentially in a range of 45 nm to 150 nm, and a film thickness adjusting layer which is formed on the orientation controlling layer and has the same crystal orientation as the crystal orientation of the orientation controlling layer, in which an interface is formed between the orientation controlling layer and the film thickness adjusting layer. | 10-03-2013 |
20130258549 | PZT-BASED FERROELECTRIC THIN FILM AND METHOD OF MANUFACTURING THE SAME - A PZT-based ferroelectric thin film formed on a lower electrode of a substrate having the lower electrode in which the crystal plane is oriented in a (111) axis direction, having an orientation controlling layer which is formed on the lower electrode and has a layer thickness in which a crystal orientation is controlled in a (111) plane preferentially in a range of 45 nm to 270 nm, and a film thickness adjusting layer which is formed on the orientation controlling layer and has the same crystal orientation as the crystal orientation of the orientation controlling layer, in which an interface is formed between the orientation controlling layer and the film thickness adjusting layer. | 10-03-2013 |
20130260142 | METHOD OF MANUFACTURING PZT-BASED FERROELECTRIC THIN FILM - A PZT-based ferroelectric thin film is manufactured on a lower electrode by coating, calcining, and then firing so as to crystallize a PZT-based ferroelectric thin film-forming composition. A PZT-based ferroelectric thin film-forming composition is coated on the surface of the lower electrode using a CSD method. Calcination is slowly carried out on a formed sol film in a temperature pattern including a first holding step in which the temperature of the composition is increased from a predetermined temperature such as room temperature using infrared rays and the composition is held at a temperature in a range of 200° C. to 350° C. and a second holding step in which the temperature of composition is increased from the holding temperature of the first holding step and is held at a temperature in a range of 350° C. to 500° C. higher than the holding temperature of the first holding step. | 10-03-2013 |
20130295414 | COMPOSITION FOR FERROELECTRIC THIN FILM FORMATION, METHOD FOR FORMING FERROELECTRIC THIN FILM, AND FERROELECTRIC THIN FILM FORMED BY THE METHOD THEREOF - Disclosed is a composition for ferroelectric thin film formation which is used in the formation of a ferroelectric thin film of one material selected from the group consisting of PLZT, PZT, and PT. The composition for ferroelectric thin film formation is a liquid composition for the formation of a thin film of a mixed composite metal oxide formed of a mixture of a composite metal oxide (A) represented by general formula (1): (Pb | 11-07-2013 |
20140072819 | COMPOSITION FOR FORMING FERROELECTRIC THIN FILM, METHOD FOR FORMING THIN FILM AND THIN FILM FORMED USING THE SAME METHOD - Cracking does not occur in a ferroelectric thin film even when Ce is not doped in a composition for forming ferroelectric thin films and a composition for forming relatively thick ferroelectric thin films contains lead acetate instead of lead nitrate. A ferroelectric thin film made of a titanate lead-based perovskite film or a titanate zirconate lead-based complex perovskite film is formed using the composition for forming ferroelectric thin films. The composition includes lead acetate, a stabilizing agent made of lactic acid and polyvinyl pyrrolidone. In addition, a monomer-equivalent molar ratio of polyvinyl pyrrolidone to a perovskite A site atom included in the composition is more than 0 to less than 0.015. Furthermore, a weight average molecular weight of the polyvinyl pyrrolidone is 5000 to 100000. | 03-13-2014 |