Abstract: Methods, apparatus, and computer program, for use in fabricating a chemical array. The method may use an apparatus which includes a head system, a transport system, and a processor. The head system has multiple groups of drop dispensers which move in unison, each group having multiple dispensers. The transport system can move the head system with respect to a substrate with different dispensers of the groups following respective paths. The processor can dispense droplets from dispensers during operation of the transport system, in a pattern along a selected path for each group so as to form the array. The method includes identifying an error in one or more dispensers. When a dispenser of a first group is in error, then a second dispenser of each group is moved along the selected path for its group while dispensing droplets from at least the second dispenser of the first group in at least part of the pattern for the selected path of the first group.

Abstract: A chemical processing microsystem useful for identifying and optimizing materials (e.g., catalysts) that enhance chemical processes or for characterizing and/or optimizing chemical processes is disclosed. The chemical processing microsystem comprises a plurality of microreactors 600 and, in a preferred embodiment, a plurality of microseparators 900 integral with the chemical processing microsystem 10. The microreactors 600 are preferably diffusion-mixed microreactors formed in a plurality of laminae that include a modular, interchangeable candidate-material array 100. The material array 100 comprises a plurality of different candidate materials (e.g., catalysts), preferably arranged at separate, individually addressable portions of a substrate (e.g., wafer). The microseparators 900 are similarly formed in a plurality of laminae that include a modular, interchangeable adsorbent array 700.

Abstract: A compound handling system handles a multiplicity of chemical or biological compounds or samples, and is especially adapted for high throughput screening of compounds that are stored and handled in aliquotted form. Aliquots are contained in individual containers and the containers are arranged in racks having holding spaces open at opposite ends. Insertion and removal of the containers is effected in either direction of movement, and each container may be sealed with foil to protect its integrity.

Abstract: A dispenser includes a plurality of arranged micropipettes, each including a sample-pouring port for pouring a sample solution from the outside, a cavity for pouring and charging the sample solution thereinto, and a sample discharge port for discharging the sample solution, and formed on at least one or more substrates. The micropipette further includes an actuator section disposed on at least one wall surface of the substrate which forms the cavity so that the sample solution is movable in the cavity, and the sample solution is discharged from the sample discharge port of each of the micropipettes. A pin, which protrudes upwardly, is provided at the sample-pouring port of each of the micropipettes.

Abstract: A device and method for separating heavier and lighter fractions of a fluid sample. The device includes a plurality of constituents comprising a container and a composite element in the container. The composite element is a separator comprising a deformable bellows, a ballast mounted to the lower end of the bellows, and a float is engageable with an upper end of the bellows. A fluid sample is delivered to the container and the device is subjected to centrifugation whereby the centrifugal load causes the ballast to move toward the bottom of the tube and causes an elongation and narrowing of the bellows. The separator then moves down the tube and stabilizes in a position between the separated phases of the fluid sample. Termination of the centrifugal load enables the bellows to return to its original condition in sealing engagement with the walls of the tube.

Abstract: A polymer synthesizer is disclosed which has a base on which sits a synthesis case, a synthesis block, and a means of moving the synthesis block and supports for a reagent shelf. The synthesis case has a loading station, drain station, and a water tolerant reagent area and a water sensitive reagent dispensing area. The synthesis case has a cover, a first and a second side, a first and a second end, and a bottom side which contacts the base. The bottom side of the synthesis case has a top face in which there are tracks. A synthesis block moves back and forth in the synthesis case and has a top face and an opening in the top face for a synthesis plate with a plurality of wells. The synthesis block also has a collection area under the synthesis plate to drain spent reagents or optionally hold a sample plate. The polymer synthesizer also has a means of moving the synthesis block back and forth in the synthesis case, preferably a pulley, cable and motor.

Abstract: A specimen collection and separation assembly is provided. The assembly includes a tube having closure secured to the open top of the tube. The closure includes a section that is pierceable by a needle cannula for depositing a liquid specimen in the tube. A separator is disposed in the tube below the closure. The separator includes top and bottom ends. Portions of the separator adjacent the top define a resiliently deformable low density sealing plug dimensioned to sealingly engage the interior of the tube. A high density ring is integrally engaged with the seal and extends to the bottom of the separator. The relative densities and dimensions of the seal and the ring are selected to achieve an overall density between densities of the phases of liquid to be separated. The ring causes the seal to elongate in response to forces imposed by a centrifuge. The separator then will move to a position in the tube between the respective phases of the specimen being separated.

Abstract: An apparatus for filling and cleaning channels and inlet ports of a microchip substrate is disclosed. A device of the apparatus comprising an array of tubes is inserted into each of the inlet ports of the microchip. The array of tubes of the device comprises a plurality of pressure tubes, surrounded by a plurality of vacuum tubes. In conjunction with this, pressurized solutions such as matrix or wash are introduced into common openings on the microchip that provide a passage to microchannels of the microchip with the use of pressure tip injectors of the apparatus. As matrix or wash solutions are pumped through the common openings and microchannels of the microchip substrate, wash solutions are pumped through the plurality of pressure tubes and everything is vacuumed through the plurality of vacuum tubes surrounding the plurality of pressure tubes. Various reservoirs of solutions are selected and allowed to flow by proper valve actuation.

Abstract: Multiple parallel chemical reactions are performed under pressure in a reactor including a multi-row array of reaction vessels situated between a temperature control base and a fluid flow manifold. The manifold consists of an input portion connected to the fluid supply by a five-way valve and a distribution portion which includes separate parallel distribution channels, one for each row of reaction vessels. A control valve for each distribution channel is interposed between the manifold portions such that the fluid flow to each row of reaction vessels can be independently controlled. An explosion proof transparent shield can be situated between the base and manifold, surrounding the reaction vessels. The interior of the shield can be flooded with inert gas.

Abstract: A substrate with a plurality of microchannels is movably deployed with other movable objects that will load sample into the microchannels, stimulate molecular migration, read the results of the migration, remove and replace the substrate, and prepare for a new run. The other objects include a gripper for engaging and moving the substrate, an electrode array of fine wires suitable for fitting into the microchannels for electromigration, and a scanning detector for reading migration results. A sequence of automatic operations is established so that one substrate after another may be moved into position, loaded with sample, stimulated for molecular migration, read with a beam, and then removed and replaced with a fresh substrate.

Abstract: An aliquot vessel array having notched side flanges and rails of a next adjacent so that a plurality of arrays may be attached one atop another in a secure stack. Stacked aliquot vessel arrays may be simultaneously loaded into a storage unit on an automatic analyzer and automatically dispensed into a sampling track as required. The aliquot vessel array has certain handling features to ensure safe and reliable movement between the storage unit and sampling tracks.

Abstract: A chemical processing microsystem useful for identifying and optimizing materials (e.g., catalysts) that enhance chemical processes or for characterizing and/or optimizing chemical processes is disclosed. The chemical processing microsystem comprises a plurality of microreactors 600 and, in a preferred embodiment, a plurality of microseparators 900 integral with the chemical processing microsystem 10. The microreactors 600 are preferably diffusion-mixed microreactors formed in a plurality of laminae that include a modular, interchangeable candidate-material array 100. The material array 100 comprises a plurality of different candidate materials (e.g., catalysts), preferably arranged at separate, individually addressable portions of a substrate (e.g., wafer). The microseparators 900 are similarly formed in a plurality of laminae that include a modular, interchangeable adsorbent array 700.

Abstract: A new method and system for transporting and sorting multiple reagent packs used in conjunction with an immunodiagnostic instrument is provided. The new system includes a multiplicity of reagent packs; a gantry movably mounted on a rack structure for carrying a gripper mechanism, wherein the gripper mechanism has gripping jaws for engagement with the reagent pack; a power assembly for actuating the respective movement of the gantry, the gripper mechanism and the gripping jaws; a storage nest having a multiplicity of compartments, each adapted for storing a one of the respective reagent packs; and a pipetting nest having a multiplicity of compartment, each adapted for retaining a respective one of the reagent packs for simultaneous pipetting. Methods of using the system and a novel reagent pack used in connection with the new system are also provided.

Abstract: A chemical processing microsystem useful for identifying and optimizing materials (e.g., catalysts) that enhance chemical processes or for characterizing and/or optimizing chemical processes is disclosed. The chemical processing microsystem comprises a plurality of microreactors 600 and, in a preferred embodiment, a plurality of microseparators 900 integral with the chemical processing microsystem 10. The microreactors 600 are preferably diffusion-mixed microreactors formed in a plurality of laminae that include a modular, interchangeable candidate-material array 100. The material array 100 comprises a plurality of different candidate materials (e.g., catalysts), preferably arranged at separate, individually addressable portions of a substrate (e.g., wafer). The microseparators 900 are similarly formed in a plurality of laminae that include a modular, interchangeable adsorbent array 700.

Abstract: An ICP analyzer has a nebulizer for nebulizing a sample fluid for the purpose of analyzing microscopic impurities within the sample fluid, a plasma torch for introducing nebulized spray into a plasma, and a spray chamber disposed between the nebulizer and the plasma torch for separating spray comprised of microscopic particles from the nebulized spray prior to introduction thereof into the plasma torch. A heating section is provided at a central portion of the spray chamber and a cooling section is provided at a peripheral section of the spray chamber, and the spray is passed between the heating section and the cooling section to improve the efficiency sample introduction into the plasma to enable highly sensitive analysis by suppressing the proportion of a solvent component that reaches the plasma torch.

Abstract: Devices and methods for integrated packaging, shipping, storage and precise dispensing of extremely small volumes of liquids such as aqueous solutions and compounds dissolved in organic solvents are disclosed. Devices of the invention include a sealed reservoir with an integrated metering tap. The tap includes a metering tube, which is translatable between a fill position inside the reservoir and an expel position outside the reservoir. The metering tube includes: (1) a tube end closure in a lower portion of the tube, (2) a port above the tube end closure, and (3) a piston in an upper portion of the tube. The piston is movable between a down position that seals the side port and an up position above the port. Movement of the piston from the up position to the down position can displace from 10 nanoliters to 20 microliters, e.g., from 20 nanoliters to 2 microliters, or 50 nanoliters to 500 nanoliters.

Abstract: The present invention relates to a composition suitable for use in an ECL assay wherein electromagnetic radiation emitted by the composition is detected. The composition includes an amine or amine moiety which, when oxidized by exposure to an effective amount of electrochemical energy, forms a strong reducing agent in the composition; and an electrolyte capable of functioning as a medium in which an ECL moiety and the amine or amine moiety can be oxidized by exposure to electrochemical energy.

Abstract: The invention relates to devices and methods for the contamination-free transfer of biological specimens, for example from supply containers, into the microtiter plates or comparable processing devices used to process the specimens. Such contamination-free transfer systems for DNA samples are known for microtiter plates with 96 cavities; they are based on covers for the cavities which can be removed by pipetting robots. The invention consists in covering the processing volumes of the microtiter plates together by a slidable blind which has one or more openings that can be slid over the processing volumes and through which the specimens can be pipetted. The space under the foil is swept by clean gas which emerges from the openings in order to prevent contamination by aerosols.

Abstract: The present invention relates to parallel reaction devices that include reaction blocks having arrays of reaction wells. Devices of the invention also typically include lids having arrays of protrusions disposed thereon, which protrusions axially align with the reaction wells, and/or attachment components that include hinges that permit lids to be removed from reaction blocks.

Abstract: A multi-well plate is disclosed for holding chemical compounds for heating in a microwave oven. The plate is a substantially planar member having wells arranged in an array of rows and columns in its upper surface. The plate has heat reservoirs in the form of fluid filled channels or elongated solid bodies positioned lengthwise along the side portions of the plate to reduce temperature gradients among the wells across the length and width of the plate. The heat reservoirs prevent or mitigate heat loss from the wells near the side portions of the plate and ensure that the compounds in all of the wells have a uniform temperature.