Patent application number | Description | Published |
20080218753 | Microchip with Expansion Channel and Flowcytometer Using this Microchip - Disclosed is a microchip for a flowcytometer. A channel is expanded around a point, on which laser beams emitted from an optical unit are focused, so that focused sample particles slow down when they pass the expanded portion. This improves the detection intensity of sample particles. | 09-11-2008 |
20080278726 | Device Having an Optical Part for Analyzing Micro Particles - Disclosed is a micro particle analyzing device illuminating light to fluid including micro particles, reading the lights emitted from the micro particles at a signal processing reading section and thus analyzing the micro particles. The device comprises a light source section emitting light which will be illuminated to the fluid; a lens regulating an amount and a focal distance of the light emitted from the light source; and a concave mirror condensing light emitted from the micro particle to reflect it to the reading section wherein the concave mirror is formed with a hole so that the light of the light source section having passed through the lens can pass through the concave mirror. When analyzing the micro particles using the analyzing device according to the invention, the amounts of lights emitted from the micro particles according to up-and-down positions of the micro particles are not different. | 11-13-2008 |
20080304720 | Channel Apparatus for Focusing a Fluid Flow - Disclosed is a focusing channel device which focuses fluid containing micro particles so that the micro particles flow in a line. The channel device comprises a nozzle formed by left and right walls each of which comprises an inclination surface. The cross sectional area in vertical direction decreases from the entrance of the nozzle toward the exit of the nozzle. The shape of cross sectional view in horizontal direction is asymmetric for the central line in the length direction. Using the focus channel device of the invention, the micro particles in the fluid are not combined with each other and passed through the channel one by one. Thus, blockage of the channel or combination and movement of two particles together does not occur. | 12-11-2008 |
20080316474 | Optical Apparatus and an Observation Apparatus Having the Same For Observing Micro Particles - Disclosed is an optical device for illuminating a chip having a sample provided thereto with a beam in an apparatus for observing the sample. The optical device comprises a light source; and a first reflector reflecting the beam of the light source to allow the reflected beam to be incident on the chip at an inclined angle. In addition, the invention provides an apparatus for observing micro particles having the optical device. When the light of the light source is incident on the sample at an incline angle according to the optical device of the invention, it is possible to maximize a transmittancy of the light. Accordingly, the light emitted from the sample is clearer and a clear image can be thus obtained. | 12-25-2008 |
20090035802 | METHOD FOR DETECTION AND ENUMERATION OF CELL SURFACE MARKERS - Disclosed is a method for detecting and counting cell surface markers using a difference in fluorescence intensities. A fluorescent material having a relatively lower fluorescence intensity is conjugated with one marker and another fluorescent material having a relatively higher fluorescence intensity is conjugated with the other marker. The two markers can be sorted and counted individually and simultaneously from the fluorescence intensity difference. | 02-05-2009 |
20100003744 | FLOW CYTOMETER FOR DIAGNOSIS OF HIV INFECTIONS - Disclosed is a a flow cytometer for diagnosis of HIV infections. A fluorescent material having a relatively lower fluorescence intensity is conjugated with one marker and another fluorescent material having a relatively higher fluorescence intensity is conjugated with the other marker. The two markers can be sorted and counted individually and simultaneously from the fluorescence intensity difference. | 01-07-2010 |
20100112631 | Chip Having Microchannel For Counting Specific Micro Particles Among Floating Micro Particle Mixture By Optical Means And A Method For Counting Micro Particles Using The Same - A microchannel chip for counting floating microparticles with an optical method is provided. The depth of the microchannel chip is made to be a depth of field such that a clear and sharp optical image of microparticles can be obtained, without necessarily diluting the microparticle mixture inside the microchannel. Consequently, a microparticle counting instrument can easily count microparticles shown on an optical image of the microchannel. Particularly, it enables to count more easily the number of CD3 cells CD4 cells or CD8 cells in white blood cells being stained, without lysing or diluting red blood cells. Therefore, the microchannel chip can advantageously used for counting the number of CD3 cells, CD4 cells or CD8 cells in blood of an AIDS patient to monitor the progression of AIDS. | 05-06-2010 |
20110030458 | CHIP FOR ANALYZING FLUIDS - Disclosed is a fluid analysis chip including a microchannel formed within the chip. The chip includes a sample and a sample outlet communicating with an outside of the chip, and has a structure where the sample inlet and the sample outlet communicate with each other through the closed channel. An expanding part formed in a longitudinal direction of a channel in such a manner that a pair of inner walls corresponding to each other has a larger sectional area at a part or a whole thereof is formed. Therefore, fluids, which pass through the channel adjacent to the expanding part, move while making contact with only another pair of inner walls of the channel, which correspond to each other. | 02-10-2011 |
20110044862 | METHOD FOR BONDING PLASTIC MICRO CHIP - Disclosed is a method of bonding upper and lower substrates for manufacturing a plastic micro chip comprising the upper substrate, the lower substrate and a sample filling space having a predetermined height for filling a sample between the upper and lower substrates. According to the method, the upper and lower substrates are bonded by introducing an organic solvent between the upper and lower substrates. In addition, the invention provides a method of manufacturing a micro chip using the method and a micro chip manufactured according to the method. According to the invention, it is possible to easily and precisely bond the upper and lower substrates of the plastic micro chip. | 02-24-2011 |
20110263005 | PIPETTE TIP FOR ELECTROPORATION DEVICE - Provided herein is a pipette tip ( | 10-27-2011 |
20110294197 | MODULE FOR DETECTING ANALYTES IN FLUIDS AND CHIP HAVING THE SAME - Disclosed is a module for rapidly detecting analytes in fluids with high effectiveness and a chip having the module. The module includes a microchannel, which has a filtering zone for removing noise materials and a reaction zone wherein labeling reaction and immobilization reaction for detection of analytes are performed, sample fluid moving through the microchannel due to capillary floating. In a case where the chip having the module is used in detecting analytes in fluids, it is possible to minimize dead volume of sample fluid so that high effective volume ratio can be implemented. Therefore, the chip can be used in detecting analytes from the minimum amount of sample fluid. | 12-01-2011 |
20120003725 | MICROFLUIDIC CHIP FOR ANALYSIS FOR FLUID SAMPLE - Disclosed is a microfluidic chip capable of accurately and quickly detecting presence of a trace amount of a target within a fluid sample. It has a channel structure comprising a sample inlet for feeding a sample therethrough, a first reservoir for primarily storing the sample therein, a second reservoir for secondarily storing the sample therein, a first reaction portion in which a target is conjugated with a label, a second reaction portion in which the labeled target undergoes a specific reaction, such as an antigen-antibody reaction, and a delaying portion, located between the first and the second reaction portion, for decreasing a flow rate of the sample. | 01-05-2012 |