Patent application number | Description | Published |
20090203552 | METHOD OF TWO-DIMENSIONALLY ARRAYING FERRITIN ON SUBSTRATE - A novel method for two-dimensionally arraying ferritin on a substrate is provided which obviates the need for a metal ion that permits linking between adjacent two ferritin particles. In a method of two-dimensionally arraying ferritin on a substrate, the surface of the substrate is hydrophilic, and the method includes the steps of: developing a solution containing a solvent and the ferritin on the substrate; and removing the solvent from the solution developed on the substrate, while the ferritin has an amino acid sequence set out in SEQ ID NO: 1 modified at its N-terminus. | 08-13-2009 |
20100089524 | ACTUATOR AND METHOD FOR MANUFACTURING PLANAR ELECTRODE SUPPORT FOR ACTUATOR - An actuator as a drive source of robots and the like is usable for housekeeping assistance, job assistance, and nursing help. The drive source itself is small, light, flexible, and safe. A manufacturing method for a planar electrode support therefor is also described. The actuator has an electrolyte layer in contact with a conductive polymer layer disposed in between a first electrode having the conductive polymer layer attached thereto and opposite second electrode, for deforming the conductive polymer layer by application of electric fields to the electrodes. The first electrode has low rigidity in a longitudinal direction of the conductive polymer layer to facilitate expansion and contraction thereof. | 04-15-2010 |
20120058490 | METHOD FOR DETECTING AN ANTIGEN - Provided is a method for detecting an antigen without use of a labeled-antibody. A support having an antibody and a multi-copper oxidase CueO immobilized thereon is brought into contact with a first buffer solution containing the antigen, a current is measured by a potentiostat method using the support and a second buffer solution, and when the measured current is greater than or equal to 1.5×(blank value), it is determined that the antigen exists. The second buffer solution contains a substrate of the CueO and has an ionic strength falling within a range of not less than 0.3 mM and not more than 1.0 mM. | 03-08-2012 |
20120116061 | METHOD OF ARRAYING FERRITIN - A method of selectively arraying ferritin and inorganic particles on a silicon oxide substrate at regions having vanadium, niobium or tantalum. An aspect of the method includes steps of: preparing a solution which contains ferritin modified at an N-terminal part of a subunit with a peptide set out in SEQ ID NO: 1, and from 0.01 v/v % to 10 v/v % of a nonionic surfactant and having a pH of from 7.4 to 8.2; and a binding step of bringing the solution in contact with regions of the substrate having vanadium, niobium, or tantalum to selectively array peptide-modified ferritin to vanadium, niobium or, tantalum portion. The method may also include a step of selectively arraying ferritin modified with the peptide set out in SEQ ID NO: 1, and the inorganic particles contained in ferritin at the vanadium, niobium, or tantalum portion by removing the solution. | 05-10-2012 |
20120122669 | METHOD OF ARRAYING FERRITIN - A method of selectively arraying ferritin and inorganic particles on a silicon oxide substrate having a chromium, niobium or tungsten portion. An aspect of the method includes steps of: preparing a solution which contains ferritin modified at an N-terminal part of a subunit with a peptide set out in SEQ ID NO: 1, and a nonionic surfactant; and a binding step of bringing the solution in contact with the silicon oxide substrate to selectively array peptide-modified ferritin to the chromium, niobium or, tungsten portion. Another aspect of the method includes selectively arraying ferritin modified with the peptide set out in SEQ ID NO: 1, and the inorganic particles contained in ferritin at the chromium, niobium, or tungsten portion by removing the solution. | 05-17-2012 |
20120205762 | MAGNETIC TUNNEL JUNCTION DEVICE - The magnetic tunnel junction device of the present invention includes a first ferromagnetic layer, a second ferromagnetic layer, an insulating layer formed between the first ferromagnetic layer and the second ferromagnetic layer. The insulating layer is composed of fluorine-added MgO. The fluorine content in the insulating layer is 0.00487 at. % or more and 0.15080 at. % or less. This device, although it includes a MgO insulating layer, exhibits superior magnetoresistance properties to conventional devices including MgO insulating layers. The fluorine content is preferably 0.00487 at. % or more and 0.05256 at. % or less. | 08-16-2012 |
20120309033 | METHOD FOR DETECTING AN ANTIGEN - The present invention relates to a method for detecting an antigen with use of an antibody and an enzyme. Specifically, the present invention provides a method for detecting an antigen without use of a labeled-antibody. the method comprises immersing particles in a first buffer solution which is predicted to contain the antigen; wherein an antibody and a multi-copper oxidase CueO are immobilized on each surface of the particles, and the antibody reacts specifically with the antigen. The method further comprises the following steps recovering the obtained particles; mixing the particles recovered, an oxidation-reduction indicator (reductant), and a second buffer solution so as to prepare a reaction solution; measuring an activity degree of the multi-copper oxidase CueO contained in the reaction solution; determining that the first buffer solution contains the antigen based on the above activity degree. | 12-06-2012 |
20130170290 | SPIN DEVICE, DRIVING METHOD OF THE SAME, AND PRODUCTION METHOD OF THE SAME - The present disclosure provides a spin device including: a graphene; a first ferromagnetic electrode and a second electrode that are in electrical contact with and sandwich the graphene; a third ferromagnetic electrode and a fourth electrode that sandwich the graphene at a position apart from the first and second electrodes in electrical contact with the graphene; a current applying portion that applies an electric current between the first ferromagnetic electrode and the second electrode; and a voltage-signal detecting portion that detects spin accumulation information as a voltage signal via the third ferromagnetic electrode and the fourth electrode. The spin accumulation information is generated, by application of the electric current, in a part of the graphene that is sandwiched between the third and fourth electrodes. The first and third ferromagnetic electrodes are disposed on the same surface of the graphene, and the second and fourth electrodes are non-magnetic or ferromagnetic electrodes. | 07-04-2013 |
20130217151 | METHOD FOR PRODUCING SPIN INJECTION ELECTRODE - A production method of the present disclosure includes: a first step of preparing a multi-layer graphene, and an iron oxide that is a ferromagnetic material contacting the graphene and containing Fe | 08-22-2013 |
20140134409 | METHOD FOR PRODUCING THIN OXIDIZED CARBON FILM, ELEMENT HAVING THIN OXIDIZED CARBON FILM, AND METHOD FOR PRODUCING SAME - A method for producing a thin oxidized carbon film according to the present disclosure includes: a first step of preparing a thin carbon film and a copper oxide being in contact with the thin carbon film and containing a mixture of Cu | 05-15-2014 |
20140154510 | FILM STRUCTURE AND METHOD FOR PRODUCING SAME - A film structure (carbon material-insulating film structure) of the present invention includes a carbon material and an insulating film disposed on the carbon material and composed of fluorine-added magnesium oxide. The amount of added fluorine in the magnesium oxide is 0.0049 atomic percent or more and 0.1508 atomic percent or less. This film structure facilitates the realization of an electronic device, such as a spin device, which uses a carbon material such as graphene. This film structure is formed, for example, by sputtering using a target containing magnesium oxide and magnesium fluoride. | 06-05-2014 |