This disclosure provides quantitative, rapid, and reliable LC-MS/MS methods for analyzing panels of pesticides and mycotoxins in various samples, including very hydrophobic and chlorinated compounds normally analyzed on a GC-MS/MS system. The methods can be carried out using a single instrument and can detect and quantify levels of the pesticides and mycotoxins that are well below action limits specified by U.S. states (e.g., California) and other countries (e.g., Canada) for these compounds in cannabis products.

A water quality and flow monitoring and control apparatus, method and system installed at an end user location and being capable of monitoring one or more of the following water quality parameters: microorganisms (including E. coli), mineral or other ion concentration, pH, temperature, and turbidity. The system also has a water meter that detects the flow of water and has a valve to shut the flow of water off upon detecting a fault condition such as a leak.

Formation potential for disinfection by-products (DBPs) is determined in-situ using one or more automated sample extraction and measurement mechanisms. In one embodiment, such an in-situ mechanism is used to take periodic water samples and measure trihalomethane (THM) concentration in near real-time (i.e., less than two hours), using a measurement process based on modified Fujiwara chemistry. During the extraction and measurement process, water samples can be heated according to a specific temperature/time profile in order to artificially accelerate age of the water sample, so as to cause DBPs to form prematurely. A water monitoring network can monitor detected DBP levels and take automated response actions according to predefined computer policies or rules.

An open-cell foam biological indicator for bacteria detection and removal from water or air, and methods of use.

Disclosed are methods, devices, kits, components, and compositions for detecting a target molecule in a test sample using a cell-free protein synthesis (CFPS) reaction. The methods, devices, kits, components, and compositions may be utilized for detecting target molecules which may include small molecules and/or metabolites of small molecules. The components and compositions used in the disclosed methods, devices, and kits may be dried or lyophilized and may be present or immobilized on a paper substrate, for example, as a paper test article.

The present invention describes several embodiments of a device that allows for the supporting, storage and deployment of large surface area thin film solid phase microextraction (TF-SPME) chemical samplers from within a sample fluid carrier. The utility of said supporting device originates from the process by which the extraction surface is stabilised within a sample carrying fluid for the extraction of chemical molecules from said sample carrying fluid. The device is also characterized by having a sealing cavity, and moving mechanism or cap that can switch the supported TF-SPME chemical sampler between an open, sampling position, or closed storage position.

The present disclosure relates to the determination of pesticides, e.g., polar pesticides, in a sample using chromatography. The present disclosure can provide direct analysis of polar pesticides, including anionic polar pesticides, using high performance liquid chromatography. The polar pesticides are sufficiently retained and resolved to allow for multiple polar pesticide determinations in a single analysis.

The present invention relates to a device that allows the certification the entire life cycle of an organic product. The invention is characterized by four basic aspects: it allows to carry out automatic samplings to detect the water quality, including that in which fish/shellfish/mussel are bred; the biological liquids (urine), the solute in distilled water, the content of litter of farming livestock; it checks and guarantees that the sampling system has not been opened or modified; it generates alarms in real time and keeps track of them, for the purposes of the certification of the agro-alimentary product; it stores the information/samples in a black box accessible only to the analyzing and certifying bodies.

Disclosed is a residual toxicant detection device for detecting the amount of residual toxicants in an aqueous solution to be measured. The residual toxicant detection device includes an accommodation space formed from a shell, a water inlet and a water outlet positioned on the shell for the aqueous solution to flow therein and thereout, respectively, a sensing chamber in the accommodation space, a light source emitter and a light sensor positioned near the sensing chamber, the light source emitter emitting light of a wavelength range, the light sensor receiving the light passing through the sensing chamber, and a circuit board receiving sensing signals sensed by the light sensor, such that absorbance and a change of the absorbance of residual toxicants in the aqueous solution to be measured are calculated.

Embodiments of an apparatus are disclosed, the apparatus comprising: a substrate having a first end and an opposite, second end; a plurality of sensors proximate to the first end of the substrate, each sensor including: a first electrode; a second electrode at least partially surrounding the first electrode; and an active sensing element over the first electrode, a surface of the active sensing element being functionalized detect analytes in a sample derived from an environmental source; a plurality of contact pads proximate to the second end of the substrate, each contact pad being conductively coupled to the first electrode or the second electrode of a corresponding sensor in the plurality of sensors; and a cartridge surrounding the plurality of sensors and providing an enclosed space to contain the sample over the plurality of sensors.