Patent application number | Description | Published |
20080280365 | Apparatus and Method for Determining the Volume Fractions of the Phases in a Suspension - An apparatus for determining the volume fractions of the phases in a suspension includes a body, a channel structure, which is formed in the body, and an inlet area and a blind channel, which is fluidically connected to and capable of being filled via the same. Furthermore, a drive for imparting the body with rotation, so that phase separation of the suspension in the blind channel takes place, is provided. The blind channel includes such a channel cross-section and/or such wetting properties that, when filling same via the inlet area, higher capillary forces act in a first cross-sectional area than in a second cross-sectional area, so that at first the first cross-sectional area fills in the direction from the inlet area toward the blind end of the blind channel and then the second cross-sectional area fills in the direction from the blind end toward the inlet area. | 11-13-2008 |
20090197977 | Device and Method for Producing a Mixture of Two Phases that are Insoluble in Each Other - A device for producing a mixture of two phases that are insoluble in each other comprises a first fluid channel and a second fluid channel which lead into a contact region. Also, a third fluid channel is provided which leads into the contact region. The device comprises an imparter configured to impart a rotation on the fluid channels, a first phase being centrifugally supplied to the contact region through the first fluid channel, and a second phase, insoluble in the first phase, being supplied to the contact region through the second fluid channel, compressive and/or shearing forces in the contact region which are centrifugally/hydrodynamically induced by the rotation causing drops to break away in one of the phases supplied in order to produce the mixture of the first and second phases. | 08-06-2009 |
20120015844 | DEVICE AND METHOD FOR PRODUCING A REPLICATE OR DERIVATIVE FROM AN ARRAY OF MOLECULES, AND APPLICATIONS THEREOF - A method of producing a replicate or derivative of an array of molecules, the array having a spatial arrangement of separate samples of molecules, includes creating, for each sample, at least one spatially limited effective area which is separate from the effective areas of the other samples, a surface, provided with a binding adapter or binding properties, of a carrier bordering on the effective areas. The molecules are amplified by means of amplifying agents in the effective areas for creating replicates or derivatives of the samples. The replicates or derivatives of the samples are bound to the carrier by means of the binding adapter or the binding properties, so that a spatial arrangement of the replicates or derivatives of the samples on the carrier corresponds to the spatial arrangement of the samples in the array. The carrier having the copies of the samples is removed from the array. | 01-19-2012 |
20120314528 | DEVICE, FLUIDIC MODULE AND METHOD FOR PRODUCING A DILUTION SERIES - A device for producing a dilution series from a solution to be diluted, which contains a substance to be diluted, and a dilution solution, includes a body of rotation, a drive configured to subject the body of rotation to rotations having different rotation protocols, and a controller configured to control the drive so as to subject the body of rotation to the different rotational frequencies. A first mixing chamber and a second mixing chamber are connected via a fluidic connection which enables producing, in the first mixing chamber, a first mixture having a first dilution ratio, transferring a partial volume of the first mixture into the second mixing chamber, and there producing a second mixture having a second dilution ratio. | 12-13-2012 |
20130252796 | DEVICE FOR INSERTION INTO A ROTOR OF A CENTRIFUGE, CENTRIFUGE AND METHOD FOR THE FLUIDIC COUPLING OF CAVITIES - A device for insertion into a rotor of a centrifuge has at least two bodies stacked one above the other in a stacking direction inside a housing. The housing is configured such that it can be inserted into a holder of the rotor of the centrifuge. With a correct reception of the device in the centrifuge, and upon a rotation of the rotor, a spacing of one of the at least two bodies in relation to the axis of rotation of the rotor is smaller than a spacing of another of the at least two bodies in relation to the axis of rotation of the rotor. A first of the at least two bodies has at least one first cavity and a second cavity and a second body of the at least two bodies has at least one first cavity. The two bodies are movably disposed in relation to each other inside the housing in order to fluidically couple, in a first phase, responding to a rotation of the rotor, the first cavity of the first body to the first cavity of the second body and to fluidically couple in a second phase the second cavity of the first body to the first cavity of the second body. | 09-26-2013 |