The instant disclosure is related to fluidic distributors, fluidic systems, and associated methods and articles. Certain embodiments are related to fluidic distributors that comprise bays including fluidic connections with relative positions that substantially correspond to each other. In some embodiments, a fluidic distributor may comprise bays with electrical interfaces with relative positions that substantially correspond to each other.

Parallel reactor systems for synthesizing materials are disclosed. The reactor systems may be suitable for synthesizing materials produced from corrosive reagents. Methods for preparing materials by use of such parallel reactor systems are also disclosed.

Complete nucleic acid library preparation devices are provided. Aspects of the devices include: a thermal chip module comprising multiple CLC reaction wells; one or more plate locations; a robotically controlled liquid handler configured to transfer liquid between the one or more plate locations and the thermal chip module; and a bulk reagent dispenser configured to access each CLC reaction well of the thermal chip module.

Parallel reactor systems for synthesizing materials are disclosed. The reactor systems may be suitable for synthesizing materials produced from corrosive reagents. Methods for preparing materials by use of such parallel reactor systems are also disclosed.

An improved apparatus for oligonucleotide synthesis, that has four or more synthesis vessels, each synthesis vessel having a waste emitting end, a synthesis plate holding the four or more synthesis vessels, a drain block located below and coupled to the synthesis plate, a sealing device in contact with the synthesis plate and the drain block, one or more waste collection reservoirs located inside of the drain block, one or more equilibration holes, each equilibration hole penetrating the exterior of the drain block and the waste collection reservoir(s), one or more waste tubes connected to the waste collection reservoir(s), each waste tube comprising a waste valve. The sealing device may have one or more sealing blocks, and the equilibration holes may be located in the sealing blocks in lieu of in the drain block. Each equilibration hole may be coupled to a solenoid or flow control valve.

Complete nucleic acid library preparation devices are provided. Aspects of the devices include: a thermal chip module comprising multiple CLC reaction wells; one or more plate locations; a robotically controlled liquid handler configured to transfer liquid between the one or more plate locations and the thermal chip module; and a bulk reagent dispenser configured to access each CLC reaction well of the thermal chip module.

The invention relates to a container holder 10, comprising a main body 12 which in turn comprises a gas inlet 16; a solution liquid outlet 18; a gas control valve 20 through which a gas enters the container 100 from the gas inlet; and a sealing means 22 for the container, which sealing means includes a passageway 24 for the input of gas and output of a solution in the container via an egress tube 19; wherein when the container is connected to the container holder through the sealing means, the gas control valve opens automatically, and when the container is disconnected the gas control valve is closed automatically. The invention further relates to a container panel 50 which includes two or more container holders. Also disclosed are methods of using these containers and container panels for synthesizing a polypeptide.

An improved apparatus for oligonucleotide synthesis that reduces reagent consumption and increase yield, typically comprising one or more synthesis vessels, each having a waste emitting end, a drain block located below and operably coupled to the synthesis vessel(s), a sealing device disposed between the synthesis vessel(s) and the drain block, one or more waste collection reservoirs located inside of the drain block, one or more equilibration holes, each equilibration hole penetrating an exterior of the drain block and the waste collection reservoir(s), one or more waste tubes leading from the waste collection reservoir(s), each waste tube comprising a waste valve. In some embodiments the sealing device may comprise one or more sealing blocks, and the equilibration holes may be located in the sealing blocks in lieu of in the drain block. In some embodiments, each equilibration hole may be operably coupled to a solenoid or flow control valve.

The present invention relates to a parallel synthesis method and synthesizer of a compound library, and more specifically provides a parallel synthesis method and synthesizer of a compound library, which uniformly distribute a first reactant and perform independent reactions in separate spaces, and since it is possible to confirm the results for various reaction variables at once, the synthesis time of the compound library can be reduced with a high synthesis yield of the product.

Embodiments of the disclosed subject matter provide an automated method and system to isolate and collect cells using computerized analysis of images of cells and their surroundings obtained from a digital imaging device or system. Embodiments of the disclosed subject matter make use of a microwell array, which can comprise a formed, elastomeric grid of indentations or wells. Many, most, or all of the wells in a microwell array can contain a releasable, microfabricated element, which can be referred to as a raft. Embodiments of the disclosed subject matter provide a system and method for cell collection that includes computerized identification and collection of rafts with isolated single cells or a specific group or groups of cells, eliminating the need for continuous human identification and selection.