Described is a liquid inlet valve having a housing configured to receive the opening of a sample bottle, a valve, a nozzle positioned within the housing, and a tube that extends downwardly from the housing. The liquid inlet valve is useful for transferring liquid samples from a sample bottle to a solvent phase extraction (SPE) disk of a bottle extractor system for purposes of conducting environmental analysis.

A fluid dispensing apparatus includes a fluid reservoir and a dispensing assembly. The dispensing assembly includes a housing and a deformable member that define a metering chamber that is configured to receive a predetermined volume of fluid from the fluid reservoir. The deformable member is deformed from a rest position to an eject position and the deformation causes the volume of the metering chamber to change which results in a change in fluid pressure within the metering chamber. An increase in the fluid pressure within metering chamber causes a predetermined volume of fluid within the metering chamber to be ejected and a decrease in the fluid pressure within the metering chamber causes fluid to be drawn into the metering chamber from the reservoir.

Systems, including apparatus and methods, for the microfluidic manipulation, dispensing, and/or sorting of particles, such as cells and/or beads. The systems may include a shaped focusing chamber and/or a branched diverting mechanism.

Devices and methods are provided for spotting an array with fluid. Arrays produced by such methods are also provided. In one aspect of the invention, a spotter device for spotting a plurality of fluids into an array is described, the spotter device comprising a plurality of reservoirs provided in a first configuration, each reservoir holding its respective fluid, a print head having a plurality of positions provided in a second configuration, the second configuration being different from the first configuration, a plurality of tubes, each tube configured to provide fluid communication from a reservoir at a first end of the tube to a position in the print head at the second end of the tube, and a pump for pumping fluid through the tubes from the reservoir to the print head.

Aspects of the disclosure include a pump assembly comprising a plurality of pumps (e.g. syringe pumps) positioned in a radial array on a mounting bracket. In embodiments, each syringe pump of the plurality of syringe pumps comprises a housing comprising a syringe retainer and a plunger driver. The pump assembly serves to minimize internal volume when used as part of a multi-channel microfluidic bioprinting system.

Systems, including apparatus and methods, for the microfluidic manipulation, dispensing, and/or sorting of particles, such as cells and/or beads.

Systems, including apparatus and methods, for the microfluidic manipulation, dispensing, and/or sorting of particles, such as cells and/or beads.

A pipetting element for use with a pipetting device includes at least two wells arranged in or forming a frame. The frame is configured to be received by the pipetting device. Each respective well of the at least two wells is configured to receive a pipetting liquid and has a release portion arranged at one side of the respective well. The release portion is configured to be triggered by the pipetting device in order to release the pipetting liquid.

A pressure generating device includes a tank, a deformable membrane, a driving device, and an actuating arm. The tank defines a chamber therein, and includes an opening and a communication port each of which is in fluid communication with the chamber. The deformable membrane is disposed to seal the opening, and is deformable between a flat state and a deformed state. The actuating arm is coupled to be driven by the driving device to move between a first position, where the deformable membrane is in the flat state, and a second position, where the deformable membrane is forced to be in the deformed state, such that a predetermined negative pressure is generated through the communication port when the actuating arm is driven from one of the first and second positions to the other one of the first and second positions.