A unique fiber core sampler composition, related systems, and techniques for designing, making, and using the same are described. The sampler is used to interface with existing field instrumentation, such as Ion Mobility Spectrometer (IMS) equipment. Desired sampler characteristics include its: stiffness/flexibility; thermal mass and conductivity; specific heat; trace substance collection/release dependability, sensitivity and repeatability; thickness; reusability; durability; stability for thermal cleaning; and the like. In one form the sampler has a glass fiber core with a thickness less than 0.3 millimeter that is coated with a polymer including one or more of: polymeric organofluorine, polyimide, polyamide, PolyBenzlmidazole (PBI), PolyDiMethylSiloxane (PDMS), sulfonated tetrafluoroethylene (PFSA) and Poly(2,6-diphenyl-p-phenylene Oxide) (PPPO). Multiple polymer coatings with the same or different polymer types may be included, core/substrate surface functionalization utilized, and/or the core/substrate may be at partially filled with thermally conductive particles.

Contamination detection systems, kits, and techniques are described for testing surfaces for the presence of hazardous contaminants, while minimizing user exposure to these contaminants. Even trace amounts of contaminants can be detected. A collection kit provides a swab that is simple to use, easy to hold and grip, allows the user to swab large areas of a surface, and keeps the user's hands away from the surface being tested. The kit also provides open and closed fluid transfer mechanism to transfer the collected fluid to a detection device while minimizing user exposure to hazardous contaminants in the collected fluid. Contamination detection kits can rapidly collect and detect hazardous drugs, including trace amounts of antineoplastic agents, in healthcare settings at the site of contamination.

A biological sample reaction vessel comprising a reagent storage portion and a push rod movable relative to the reagent storage portion is provided. The reagent storage portion comprises at least one reagent containing cavity, and the reagent containing cavity is sealed by a sealing element; and the push rod is connected to the sealing element, and the push rod is used for cooperation with an external device to separate the sealing element from the reagent storage portion. In reaction, the biological sample reaction vessel cooperates with a test cassette. By inserting the biological sample reaction vessel into the external device, the reagent in the reagent storage portion can be released rapidly.

Methods for product authentication, which include: providing an article having a substrate with an analyte encoded composition; obtaining a sample of the composition; applying the sample to a test device to obtain test results, analyzing test results from the test device using an electronic device communicatively connected to an authentication authority, wherein the electronic device transmits the test device code and the test results to the authentication authority and confirms or denies authentication after comparison to an authentication database of authentic test results.

The present invention discloses, inter alia, swab, kit and a case, disclose a swab as defined above, administrable either or both into and onto a sample in a method comprising steps of providing the pouch-like envelope (1) with the opening (2), the inner surface (1i) and the at least one external surface (1e) with the at last one swabbing portion; inserting a handle into the swabbing portion; applying the swabbing portion either or both onto and into the substance; in-out rolling up the envelope so that the external portion hereto applied either or both onto and into the substance is position within the envelope; wherein at least one of the following s held true: the envelope characterized as a sleeve-like or sock-like elongated member having a main longitudinal axis, configured to be in-out rolled-up along the main longitudinal axis; and the envelope characterized as flexible pouch-like envelope, further characterized by being width-wise squeezable along an axis perpendicular to the main longitudinal axis thereby tightly encapsulated within at least two external case's walls. The present invention discloses a method for both sampling a substance and storing the same, characterized by steps: providing a pouch-like envelope (1), configured to be in-out rolled-up having an opening (2); the pouch comprises an inner surface (1i); and at least one external surface (1e) with at last one swabbing portion (3); the envelope either or both (a) characterized as a sleeve-like or sock-like elongated member having a main longitudinal axis, configured to be in-out rolled-up along the main longitudinal axis; and (b) flexible pouch-like envelope, characterized by being width-wise squeezable along an axis perpendicular to the main longitudinal axis thereby tightly encapsulated within two case's walls; inserting a handle into the swabbing portion; applying the swabbing portion either or both onto and into the substance; in-out rolling up the envelope so that the external portion hereto applied either or both onto and into the substance is position within the envelope; wherein at least one of the following is held true: the envelope characterized as a sleeve-like or sock-like elongated member having a main longitudinal axis, configured to be in-out rolled-up along the main longitudinal axis; and the envelope characterized as flexible pouch-like envelope, further characterized by being width-wise squeezable along an axis perpendicular to the main longitudinal axis thereby tightly encapsulated within at least two external case's walls.

Contamination detection systems, kits, and techniques are described for testing surfaces for the presence of hazardous contaminants, while minimizing user exposure to these contaminants. Even trace amounts of contaminants can be detected. A collection kit provides a swab that is simple to use, easy to hold and grip, allows the user to swab large areas of a surface, and keeps the user's hands away from the surface being tested. The kit also provides open and closed fluid transfer mechanism to transfer the collected fluid to a detection device while minimizing user exposure to hazardous contaminants in the collected fluid. Contamination detection kits can rapidly collect and detect hazardous drugs, including trace amounts of antineoplastic agents, in healthcare settings at the site of contamination.

A unique fiber core sampler composition, related systems, and techniques for designing, making, and using the same are described. The sampler is used to interface with existing field instrumentation, such as Ion Mobility Spectrometer (IMS) equipment. Desired sampler characteristics include its: stiffness/flexibility; thermal mass and conductivity; specific heat; trace substance collection/release dependability, sensitivity and repeatability; thickness; reusability; durability; stability for thermal cleaning; and the like. In one form the sampler has a glass fiber core with a thickness less than 0.3 millimeter that is coated with a polymer including one or more of: polymeric organofluorine, polyimide, polyamide, PolyBenzImidazole (PBI), PolyDiMethylSiloxane (PDMS), sulfonated tetrafluoroethylene (PFSA) and Poly(2,6-diphenyl-p-phenylene Oxide) (PPPO). Multiple polymer coatings with the same or different polymer types may be included, core/substrate surface functionalization utilized, and/or the core/substrate may be at partially filled with thermally conductive particles.

A membrane for collecting airborne particles, the membrane taking the form of a strip composed of a matrix formed from a mixture of a polymer and of a filler that is made of an electrical conductor, a hydrophilic layer for collecting particles, on which layer is deposited said matrix so as to form at least one composite layer, the membrane including at least one region obtained via a surface treatment of the hydrophilic layer.

Detection devices, systems, and methods for detecting an analyte in a fluid sample are provided. The detection devices, systems, and methods can include colorimetric detection to rapidly determine the presence and/or quantity of the analyte obtained from a surface that is contaminated or suspected of being contaminated with the analyte. In one aspect, the detection device includes a sample reservoir in fluid communication with a fluid flow path. The fluid flow path includes a control well downstream of the sample reservoir, a valve assembly downstream of the control well, a reagent well downstream of the valve assembly, and a test well downstream of the reagent well. In one aspect, the reagent well includes a dried reducing agent configured to generate a gas in the presence of a detection dye and the analyte in the fluid sample.

A device for collecting multiple samples for use by a single user while avoiding cross-contamination under adverse conditions is disclosed. A multiple sampling device comprising a single handle actuator with a trigger, connected to a shaft assembly further connected to a claw assembly for actuating a self-sealing sampling sphere in the process of collecting a desired sample, is disclosed. The sampling sphere comprises two halves that separate when the trigger and claw assembly are actuated, and close together when the trigger is released using springs on the claw assembly and sampling sphere. Additional sampling spheres are stored on the shaft assembly. In operation, once a sample is collected by one sampling sphere, the sampling sphere is exchanged with an empty sampling sphere stored on the shaft assembly.