Patent application number | Description | Published |
20120183768 | COATING FORMING COMPOSITION USED FOR FORMING TRANSPARENT CONDUCTIVE FILM - A subject is to provide a material capable of obtaining a transparent conductive film having an excellent conductivity, optical transparency, environmental resistance, process resistance and close contact in a single application process, and to provide a transparent conductive film and a device element using the same. The means is to prepare a coating forming composition containing at least one kind of materials selected from the group of metal nanowires and metal nanotubes as a first component, polysaccharides and a derivative thereof as a second component, a thermosetting resin compound as a third component, and water as a fourth component to obtain a transparent conductive film by using the coating. | 07-19-2012 |
20130153829 | COATING FORMING COMPOSITION USED FOR FORMING TRANSPARENT CONDUCTIVE FILM - A subject is to provide a material capable of obtaining a transparent conductive film that is excellent in conductivity, optical transmission, environmental reliability, suitability for process and adhesion in a single application process, and to provide the transparent conductive film and a device element using the same; a solution is to prepare a coating forming composition containing at least one kind selected from the group of metal nanowires and metal nanotubes as a first component, polysaccharides and a derivative thereof as a second component, an active methylene compound as a third component, an electrophilic compound as a fourth component and a solvent as a fifth component to obtain the transparent conductive film by using the coating. | 06-20-2013 |
20130251983 | COATING FORMING COMPOSITION USED FOR FORMING TRANSPARENT CONDUCTIVE FILM - To provide a material capable of obtaining a transparent conductive film having an excellent conductivity, Optical transmission, Environmental reliability, suitability for process, adhesion and hardness in a single application process, and to provide a transparent conductive film using the same and a device element using the same. A coating forming composition containing at least one kind selected from the group of metal nanowires and metal nanotubes as a first component, a polymer compound having a hydroxyl group as a second component, a compound having a group 13 element or a transition metal element as a third component, and further a solvent is prepared to obtain a transparent conductive film by the coating. | 09-26-2013 |
Patent application number | Description | Published |
20130347145 | METHOD FOR ACCUMULATING PROTEIN IN PLANT CELLS - According to the present invention, a method for stably accumulating a target protein in plant cells or a plant body, and a transgenic plant in which protein has accumulated, are provided. The method of the present invention is a method for accumulating protein in plant cells, comprising accumulating a target protein or a protein deficient in an N-terminal region of the target protein in vacuoles of myrosin cells present in a multiple mutant, in which myrosin cells deficient in intravacuolar protein are also present in a plant body at locations other than around vascular bundles, by expressing a gene that encodes a target protein having an intracellular membrane system localization signal on the N-terminal and a vacuole localization signal on the C-terminal in the multiple mutant. | 12-26-2013 |
20140137289 | Method For Accumulating A Protein In Plant Cell - A method for accumulating a protein in a plant cell, in which by co-expressing a gene which encodes a polypeptide having an ability to form an ER body, and a gene which encodes a target protein having an endomembrane system migration signal peptide at the N-terminus and having an ER retention signal peptide at the C-terminus in the plant cell, the target protein or a protein in which the N-terminus domain of the target protein is lacking is accumulated in an ER body formed in the plant cell. | 05-15-2014 |
20150259659 | METHOD FOR OBTAINING NATURAL VARIANT OF ENZYME AND SUPER THERMOSTABLE CELLOBIOHYDROLASE - A method for selectively obtaining a natural variant of an enzyme having activity includes (1) a step of detecting an ORF sequence of a protein having enzyme activity from a genome database including base sequences of metagenomic DNA of environmental microbiota; (2) a step of obtaining at least one PCR clone including the ORF sequence having a full length, a partial sequence of the ORF sequence, or a base sequence encoding an amino acid sequence which is formed by deletion, substitution, or addition of at least one amino acid residue in an amino acid sequence encoded by the ORF sequence, by performing PCR cloning on at least one metagenomic DNA of the environmental microbiota by using a primer designed based on the ORF sequence; (3) a step of determining a base sequence and an amino acid sequence which is encoded by the base sequence for each PCR clone obtained in the step (2); and (4) a step of selecting a natural variant of an enzyme having activity by measuring enzyme activity of proteins encoded by each PCR clone obtained in the step (2). | 09-17-2015 |
20150259660 | THERMOSTABLE CELLOBIOHYDROLASE AND AMINO ACID SUBSTITUTED VARIANT THEREOF - A thermostable cellobiohydrolase including a cellobiohydrolase catalytic domain, the cellobiohydrolase catalytic domain including:
| 09-17-2015 |
Patent application number | Description | Published |
20140354396 | CHIP RESISTOR AND METHOD OF PRODUCING THE SAME - [Subject] To provide a chip resistor free from chipping of corner portions thereof and a method of producing the chip resistor. | 12-04-2014 |
20140361865 | CHIP RESISTOR - [Problem] There is demand for chip resistors that are compact and that have high resistivity. [Solution] A chip resistor ( | 12-11-2014 |
20140368965 | CHIP COMPONENT AND METHOD OF PRODUCING THE SAME - [Subject] To provide a highly-reliable and small-size chip component, e.g., a chip resistor having an accurate resistance value. | 12-18-2014 |
20150034981 | CHIP COMPONENT - [Problem] There is a need for a chip component which has excellent mountability, which can accommodate multiple types of requested values with a common basic design, and which has improved geometric accuracy and micromachining accuracy. | 02-05-2015 |
20150216044 | CHIP PARTS AND METHOD FOR MANUFACTURING THE SAME, CIRCUIT ASSEMBLY HAVING THE CHIP PARTS AND ELECTRONIC DEVICE - The chip part of the present invention includes a substrate, an electrode on the substrate and having a front surface in which a plurality of recessed portions are formed toward the thickness direction thereof, and an element region having a circuit element that is electrically connected to the electrode. | 07-30-2015 |
20150243412 | CHIP COMPONENT AND PRODUCTION METHOD THEREFOR - A chip part according to the present invention includes a substrate having a front surface and a side surface, an electrode integrally formed on the front surface and the side surface so as to cover an edge portion of the front surface of the substrate, and an insulating film interposed between the electrode and the substrate. A circuit assembly according to the present invention includes the chip part according to the present invention and a mounting substrate having a land, bonded by solder to the electrode, on a mounting surface facing the front surface of the substrate. | 08-27-2015 |
20150332842 | CHIP PARTS - A chip part is provided that includes a substrate | 11-19-2015 |