Institut Fur Mikrotechnik Mainz GmbH Patent applications |
Patent application number | Title | Published |
20140252214 | METHOD AND DEVICE FOR ANALYSIS OF A FLUID BY MEANS OF EVANESCENCE FIELD SPECTROSCOPY AND DIELECTROPHORESIS - A device for analyzing a fluid by evanescence field spectroscopy. The device includes a waveguide, a source of electromagnetic radiation coupled to the waveguide on the entry side, and a detector coupled to the waveguide on the exit side for detecting electromagnetic radiation, wherein the waveguide is arranged in contact with the fluid in at least certain sections between its entry side and its exit side. An electrode arrangement is also provided, which is designed to generate an inhomogeneous electric field in the direct environment of the waveguide, said field exerting a dielectrophoretic force on polarisable particles in the fluid, which moves these particles towards or away from the waveguide. A corresponding method is presented. | 09-11-2014 |
20130255822 | MICROFLUIDIC COMPONENT, REACTOR COMPRISING A PLURALITY OF SUCH COMPONENTS, AND METHOD FOR PRODUCING SAME - A microfluidic component made of a metal sheet having a structure which includes a closed fluid line and which is formed of a structured surface of a first section of the metal sheet and an adjoining structured or unstructured surface of a second section of the metal sheet, wherein the metal sheet is folded such that the sections integrally connected to each other are located on top of each other in a surface-parallel manner. The metal sheet further includes at least one third section having a contoured edge and is moreover folded such that the third section is also supported in a surface-parallel manner and the contoured edge forms a first wall section and the adjoining structured or unstructured surface of the first or second section forms a second wall section of an open fluid line. A microfluidic reactor comprising a plurality of such microfluidic components and a method for producing such components. | 10-03-2013 |
20110236273 | MICROFLUIDIC EXTRACTION AND REACTION DEVICE - A microfluidic arrangement for extracting and optionally processing an extract from a sample and for transferring the extract in flowable form to a microfluidic chip using an extractor with a compressible extraction chamber and at least one opening thereof, a reactor that has a reaction chamber, an inlet opening that communicates with the at least one opening of the extractor, wherein the two openings define a flow path between the chambers, an outlet opening for fluidically connecting to the microfluidic chip and a ventilation opening of the reaction chamber, and having a filter arrangement installed in the flow path between the extractor and the reactor. A lab-on-a-chip system with such a microfluidic arrangement and a microfluidic chip that is rigidly connected to the reactor. | 09-29-2011 |
20110114869 | MICRO-VALVE AND SEALING DEVICE FOR USE IN A MICROFLUIDIC SYSTEM, AND METHOD FOR THE PRODUCTION THEREOF - A micro-valve for controlling fluid flows and a sealing device for sealing off cavities in a microfluid system, in particular in a lab-on-a-chip system, and also a method for the production thereof. A valve body or a sealing element bears with a sealing surface against a sealing surface of a substrate, the valve body or the sealing element is pressed with the sealing surface thereof in a fluid-tight manner against the sealing surface of the substrate by means of a pressure-exerting ring, and the pressure-exerting ring is cohesively connected to the substrate. The pressure-exerting ring and/or the valve body or the sealing element are at least partially elastic. | 05-19-2011 |
20110104024 | MICROVALVE AND SEALING DEVICE FOR USE IN A MICROFLUIDICS SYSTEM, AND METHOD FOR THE PRODUCTION THEREOF - A microvalve for controlling fluid flows, and a sealing device for sealing cavities in a microfluidic system, particularly in a lab-on-a-chip system, and a method for the production thereof. A sealing surface of a valve body, or a sealing element, respectively, rests on a sealing surface of a substrate and is pressed against the sealing surface of the substrate in a fluid-tight manner by means of a clamping element. The clamping element and/or the valve body, or the sealing element, respectively, are at least partially elastic. | 05-05-2011 |
20110081275 | Microfluidic structure - Pressure-operable microfluidic structure for the bubble-free combining of two liquid volumes with a fluid chamber that has a feed opening, as well as an inlet and outlet channel emerging into the fluid chamber, wherein the fluid chamber has a cross section that broadens out relative to the inlet channel in the direction of flow from the inlet to the outlet channel and is designed, thanks to the broadened cross section, to broaden a first liquid volume that is essentially pressure-driven and conducted through the inlet channel and through the fluid chamber to a cross section at least approximately corresponding to the full cross section of the fluid chamber, while the fluid chamber has a holding position and is configured so that a second liquid volume, placed in the fluid chamber through the feed opening, can be held in the region of the holding position and the second liquid volume when the first liquid volume is moved through by pressure can be taken up by the latter and delivered as a combined liquid volume through the fluid chamber and into the outlet channel. | 04-07-2011 |
20110079094 | Microfluidic structure and method of measurement and/or positioning of a volume of a liquid - A measurement channel for use in a microfluidic system, particularly a lab-on-chip system, having a first end at which a first gas permeable but liquid impermeable wall section is disposed which makes available a gas conduit, and a second end at which the measurement channel is connectable to at least one fluid conduit and at which an isolation or cutoff means is disposed, wherewith in the measurement channel a defined volume is included between the wall section and the isolation or cutoff means. The isolation or cutoff means is preferably in the form of a second gas permeable but liquid impermeable wall section which makes available a gas conduit. A microfluidic structure is disclosed having a plurality of fluid conduits, and further having a valve for selectively connecting and/or blocking the fluid conduits, at least one of which fluid conduits is in the form of a measurement channel. A method of measuring (measuring out) and/or positioning a volume of a liquid in a microfluidic system, by means of a measurement channel is disclosed. | 04-07-2011 |
20100135104 | ACOUSTIC MIXING ELEMENT AND MIXING DEVICE HAVING SUCH AN ELEMENT - The invention relates to a mixing element for a flowable substance, comprising a body enclosing a cavity, wherein the cavity has at least one opening and the cavity and the opening are located relative to the body such that a fluid flow of the flowable substance out of the cavity through the opening transfers a torque to the mixing element. The invention further relates to the use of a tube or hose section as such a mixing element and a mixing device comprising such a mixing element, a container, and a sound source coupled thereto for generating an oscillating pressure. | 06-03-2010 |
20100128554 | METHOD FOR MIXING AND/OR CONVEYING, MIXING AND/OR CONVEYANCE DEVICE, AND SAMPLE PROCESSING CHIP COMPRISING SUCH AS DEVICE - A mixing and/or conveyance method and a mixing and/or conveyance device for a fluid substance, comprising a sample chamber, a cavity communicating with the sample chamber, said cavity being configured for accommodating a compressible medium, and a sound source that may be coupled to the compressible medium for the production of a fluctuation in pressure in the compressible medium. In the region of its mouth, the cavity is designed such that, in the case of an expansion in the volume of the compressible medium in the cavity, a directed fluid stream of the fluid substance escapes from the cavity through its mouth. A sample processing chip (‘lab on a chip’) comprising such a mixing and/or conveyance device. | 05-27-2010 |