Abstract: The present invention relates to fluidic devices, especially microfluidic devices, for aliquoting and pairwise combinatorial mixing of a first set of liquids with a second set of liquids. The device architecture is designed to move liquids in two separate phases, a first phase where the liquids are exposed to a first directional force field to move the liquids in a first direction, from a reservoir to aliquot chambers, and a second phase where the liquids are exposed to a second directional force field to move the liquids in a second direction, from the aliquot chambers to the mixing chambers. The first and second directional force fields that the device is exposed to may be achieved using a single directional force field (i.e. a rotor driven centrifugal force field) and by re-orienting the position of the device with respect to the centrifugal forces between the first and second phases of operation.

Abstract: Provided herein is a biological detection system and method of use wherein the biological detection system comprises at least one mixer or liquid bridge for combining at least two liquid droplets and an error correction system for detecting whether or not proper mixing or combining of the two component droplets have occurred.

Abstract: The present invention relates to fluidic devices, especially microfluidic devices, for aliquoting and pairwise combinatorial mixing of a first set of liquids with a second set of liquids. The device architecture is designed to move liquids in two separate phases, a first phase where the liquids are exposed to a first directional force field to move the liquids in a first direction, from a reservoir to aliquot chambers, and a second phase where the liquids are exposed to a second directional force field to move the liquids in a second direction, from the aliquot chambers to the mixing chambers. The first and second directional force fields that the device is exposed to may be achieved using a single directional force field (i.e. a rotor driven centrifugal force field) and by re-orienting the position of the device with respect to the centrifugal forces between the first and second phases of operation.

Abstract: A liquid handling system of a PCR system is instructed to obtain a matrix of samples and reagents for a PCR experiment. A fluid pumping system of the PCR system is instructed to maintain a continuous flow of a transport fluid through a plurality of micro-channels that allows the mixture of the samples and the reagents producing a plurality of mixed sample droplets. One or more post-bridge detection values are received from a post-bridge detection system of the PCR system for each mixed sample droplet to determine if the mixed sample droplet is mixed correctly. A thermocycler of the PCR system is instructed to maintain one or more temperatures for cycling the temperature of the plurality of mixed sample droplets. One or more endpoint detection values are received from an endpoint detection system of the PCR system for each mixed sample droplet to analyze the PCR experiment.

Abstract: Provided herein is a biological detection system and method of use wherein the biological detection system comprises at least one mixer or liquid bridge for combining at least two liquid droplets and an error correction system for detecting whether or not proper mixing or combining of the two component droplets have occurred.

Abstract: Microfluidic devices and in particular microfluidic devices incorporating a cascading valve arrangement for selectively controlling the flow of a fluid within the microfluidic device are described. Specific examples of a microfluidic device comprising a sacrificial valve (210) whose opening is triggered by the opening of a second valve (220), causing a retraction of a fluid spacer (213) thus bringing liquid (214) into contact with the dissolvable valve membrane (210).

Abstract: A liquid handling system of a PCR system is instructed to obtain a matrix of samples and reagents for a PCR experiment. A fluid pumping system of the PCR system is instructed to maintain a continuous flow of a transport fluid through a plurality of micro-channels that allows the mixture of the samples and the reagents producing a plurality of mixed sample droplets. One or more post-bridge detection values are received from a post-bridge detection system of the PCR system for each mixed sample droplet to determine if the mixed sample droplet is mixed correctly. A thermocycler of the PCR system is instructed to maintain one or more temperatures for cycling the temperature of the plurality of mixed sample droplets. One or more endpoint detection values are received from an endpoint detection system of the PCR system for each mixed sample droplet to analyze the PCR experiment.

Abstract: Provided herein is a biological detection system and method of use wherein the biological detection system comprises at least one mixer or liquid bridge for combining at least two liquid droplets and an error correction system for detecting whether or not proper mixing or combining of the two component droplets have occurred.