Abstract: A system may include a needle and source providing fluid to the needle. The system may include a sheath defining an opening. The needle may be within the sheath. The needle and sheath may define a cavity. The system may include a gasket movable between open and closed positions. The gasket may fluidly seal an end of the sheath so that the fluid exits the needle into the cavity and exits via the opening. The system may include a bottle including a septum proximate the end of the sheath. The system may include a movement system that may displace the gasket to permit fluid to exit the cavity via the end of the sheath and displace the sheath or needle such that the needle extends beyond the sheath. The movement system may displace the needle or bottle such that the needle penetrates the septum and fluid exits into the bottle.

Abstract: A system may include a needle and source providing fluid to the needle. The system may include a sheath defining an opening. The needle may be within the sheath. The needle and sheath may define a cavity. The system may include a gasket movable between open and closed positions. The gasket may fluidly seal an end of the sheath so that the fluid exits the needle into the cavity and exits via the opening. The system may include a bottle including a septum proximate the end of the sheath. The system may include a movement system that may displace the gasket to permit fluid to exit the cavity via the end of the sheath and displace the sheath or needle such that the needle extends beyond the sheath. The movement system may displace the needle or bottle such that the needle penetrates the septum and fluid exits into the bottle.

Abstract: An online liquid autosampler may include a pipette, a depyrogenation system, a sample source, and a movement system. The depyrogenation system may be configured to selectively depyrogenate the pipette. The sample source may be configured to provide a liquid to be sampled to the pipette. The movement system may be coupled to one or more of the pipette, the depyrogenation system, or the sample source. The movement system may be configured to: position the pipette within the depyrogenation system for depyrogenation; position a tip of the pipette within the sample source to aspirate a sample of the liquid from the sample source; and position the pipette to dispense an aliquot of the sample of the liquid into an aliquot sample target.

Abstract: A method to analyze a sample includes performing sample interrogation cycles on the sample to generate replicates. Each of the sample interrogation cycles is performed by: illuminating the sample with two or more fluorescence excitation signals at different wavelengths; and detecting both a fluorescence emission spectral profile and a fluorescence lifetime profile of the sample for each of the two or more fluorescence excitation signals to generate two or more fluorescence emission spectral profiles and two or more fluorescence lifetime profiles of the sample. Each replicate includes the two or more fluorescence emission spectral profiles and the two or more fluorescence lifetime profiles generated for a corresponding one of the sample interrogation cycles. The method includes performing a comparison of the replicates to predetermined spectroscopic relationships.