Patent application number | Description | Published |
20080253928 | Substrate for Biochip and Method for Manufacturing Substrate for Biochip - A substrate for biochips has a substrate surface having a reaction region capable of reacting with biological substances and a non-reaction region not reacting with the biological substances, sunken bottomed wells formed in the substrate surface, and a layer of a material capable of reacting with the biological substances having a surface exposed only at the bottoms of the bottomed wells, the exposed surface forming the reaction region. | 10-16-2008 |
20100233429 | Substrate for Biochip, Biochip, Method for Manufacturing Substrate for Biochip and Method for Manufacturing Biochip - A base plate having a surface on which a plurality of hydroxyl groups can be introduced, a metallic membrane disposed on the base plate and having a plurality of wells reaching the base plate, and a crosslinkable polymer membrane disposed on the metallic membrane are included. | 09-16-2010 |
20100288727 | METHOD FOR MANUFACTURING SUBSTRATE FOR BIOCHIP - A substrate for biochips is manufactured so that the substrate has a substrate surface having a reaction region capable of reacting with biological substances and a non-reaction region not reacting with the biological substances, sunken bottomed wells formed in the substrate surface, and a layer of a material capable of reacting with the biological substances having a surface exposed only at the bottoms of the bottomed wells, the exposed surface forming the reaction region. | 11-18-2010 |
20110174773 | SUBSTRATE FOR BIOCHIP, BIOCHIP, METHOD FOR MANUFACTURING SUBSTRATE FOR BIOCHIP, AND METHOD FOR MANUFACTURING BIOCHIP - A base plate having a surface on which a plurality of hydroxyl groups can be introduced, a metallic membrane disposed on the base plate and having a plurality of wells reaching the base plate, and a crosslinkable polymer membrane disposed on the metallic membrane are included. | 07-21-2011 |
20130081446 | PARTICLE DETECTING DEVICE EVALUATING SYSTEM AND PARTICLE DETECTING DEVICE EVALUATING METHOD - A particle detecting device evaluating system having a test chamber provided, in one face thereof, with a plurality of gas intake vents, where respective particle detecting devices are provided; an injecting device for injecting particles into the test chamber; a light sheet forming device for forming a light sheet within the test chamber; and an imaging device for imaging particles made visible by the light sheet. | 04-04-2013 |
20130081478 | ENVIRONMENT PROVIDING DEVICE, ENVIRONMENT PROVIDING METHOD, AND PARTICLE DETECTING DEVICE EVALUATING METHOD - An environment providing device having a test chamber; a spraying device for receiving the supply of a gas flow to spray, into the test chamber, a fluid that contains particles; a flow meter for measuring a measured value for the flow rate of the gas flow that is supplied to the spraying device; a flow rate controlling device for controlling to a prescribed value, based on the measured value, the flow rate of the gas flow that is supplied to the spraying device; a timer for measuring a time interval over which the fluid that includes the particles has been sprayed into the test chamber; and a spraying-device-controlling device for stopping the spraying of the fluid that contains the particles after spraying a prescribed quantity of particles into the test chamber. | 04-04-2013 |
20130081482 | ENVIRONMENT PROVIDING DEVICE AND ENVIRONMENT EVALUATING METHOD - An environment providing device having a test chamber provided, in one face thereof, with a plurality of gas intake vents, where a respective plurality particle detecting devices is provided; and an injecting device for injecting particles into the test chamber. | 04-04-2013 |
20140116256 | PARTICLE CONDENSING APPARATUS AND PARTICLE DETECTING APPARATUS - A particle condensing apparatus includes a gas-borne particle condensing device that condenses a gas that includes gas-borne particles. The gas-borne particle condensing device includes a cyclone portion that causes a supplied first gas to swirl along an inner wall face to cause centrifugal force to act on particles in the first gas to produce a second gas with a relatively high particle concentration and a third gas with a low particle concentration. A fluorocarbon polymer film is formed on an inner wall face of the cyclone portion. | 05-01-2014 |
20140123730 | VARIABLE FLOW PATH WIDTH VIRTUAL IMPACTOR AND PARTICLE DETECTING DEVICE - A virtual impactor includes a jet nozzle that jets, from a jet outlet, a gas that contains particles, an opposing nozzle that is disposed with a specific separation distance from the jet nozzle and draws in, as a secondary flow, from a vacuum inlet at one end portion, a portion of the gas that is jetted from the jet nozzle, and a variable mechanism that varies at least one of a width of the jet outlet, the specific distance, and a width of the vacuum inlet. | 05-08-2014 |
20140199725 | MICROORGANISM DETECTING SYSTEM AND MICROORGANISM DETECTING METHOD - A microorganism detecting device is provided for illuminating a solution with light, for detecting fluorescent light that is produced by a microorganism included in the solution, and for detecting the number of microorganisms included in the solution. The microorganism detecting device includes a relationship storing device that stores a correlation relationship between a number of microorganisms in a solution and a number of colonies formed by the microorganisms on a culture medium, and a converting portion that uses the correlation relationship to convert, into a number of colonies that may be formed, the number of microorganisms detected by the microorganism detecting device. | 07-17-2014 |
20140218732 | PARTICLE COUNTER TESTING METHOD, AEROSOL GENERATING DEVICE, AND AEROSOL GENERATING METHOD - A particle counter testing method includes the steps for storing particles in a container, blowing a compressed gas through an inlet flow path, through a wall of the container, into the particles that are stored within the container, spraying the particles that are blown by the compressed gas to outside of the container through a nozzle that is provided on the container, and measuring the number of particles by a particle counter. In the method, an outer shape of the nozzle is a conical shape. The compressed gas is blown into the container through an inlet flow path so that a pressure of a sprayed aerosol gas flow that includes particles is lower than a pressure of a surrounding gas. | 08-07-2014 |