The present invention includes an apparatus and method for detecting the location of one or more sources of one or more target molecule, the apparatus comprising: a molecule detector; and a processor connected to the molecule detector and to a global position system, wherein the processor calculates the presence of the one or more target molecules, runs a computer code that determines a dynamic reverse gas stack model for the one or more target molecules, and triangulates the possible position for a source or effluent of the one or more target molecules based on the dynamic reverse gas stack model. The determined reverse gas stack model may have a Gaussian dispersion over one or more sampled locations.

A cost-effective and limited interaction explosive detector for dangerous, illegal, and/or illicit substances such as explosives, flammable or volatile fluids, and/or other appropriate substances is described. The explosive detector may be integrated into various containers or packages, such as cardboard boxes, paper envelopes, metal shipping containers, and/or other containers or packaging. The integrated explosive detector may provide a visual indication when a subject substance is encountered. The integrated explosive detector may include a port or vent that allows for ambient flow of fluids, such as air, between an interior of the container and the outside environment.

The invention is directed towards dielectric materials, BaTiO.sub.3, BaZrO.sub.3, and/or BaTi.sub.1-.sub.xZr.sub.xO.sub.3, such that 0≤x≤1, for detecting, sensing, filtering, reacting, or absorbing toxic chemicals, such as chemical warfare agents (“CWAs”) and their structural analogs, toxic industrial chemicals and narcotics, wherein the dielectric material is incorporated into a sensor for detecting, sensing, filtering, reacting, or absorbing the toxic chemicals.

A substance analyzer that includes, to enhance selectivity of substance analysis, the following: a heater that heats a medium for collecting a chemical substance adhering to a surface of an inspection object; a mass spectrometer that performs tandem mass spectrometry of vapor derived from the chemical substance heated and vaporized by the heater from the medium; and a control device that causes the mass spectrometer to perform, based on a temperature of the medium in the heater, tandem mass spectrometry for the chemical substance that is vaporized at the temperature of the medium using the vapor sent from the heater to the mass spectrometer.

System and method for detecting the presence at a distance of materials utilizing the atomic structure and characteristics of the elements in the chemicals comprising the material.

A wireless sensor platform design and a single walled carbon nanotube/ionic liquid-based chemidosimeter system can incorporated into a highly sensitive and selective chemical hazard badge that can dosimetrically detect an analyte down to a sub parts-per-million concentration.

A combustible gas sensor module and a combustible gas sensing device. The combustible gas sensor module includes an enclosure including a first end and a second end opposite to each other; a plug connector disposed at the first end of the enclosure for connecting to a sensing device body of a combustible gas sensing device; a sensor unit disposed at the second end of the enclosure for sensing combustible gas; and a circuit board disposed in the enclosure and respectively connected to the plug connector and the sensor unit, with a microcontroller provided thereon.

The embodiments provide a method making it possible to safely and inexpensively measure concentrations of combustible gases, such as methanol, at room temperature even in high concentration atmospheres, and also provide a sensor making it possible to carry out the above measurement method. The measurement method comprises: arranging a film containing nanoparticles of tungsten oxide and a pair of electrodes which are separated from each other and which individually keep in contact with said film in said atmosphere, exposing said film to light, measuring electric resistance change of said film before and after exposing said film to light, and determining said concentration based on said change.

The invention concerns a system (1) and a method for scanning a person (2) before access to a restricted access area (3), comprising a processing unit (14) and a metal detector (10, 70) for detecting metal in the shoes (20) or in a waist portion of the person walking on a surface (15). The processing unit controls an indication unit (12, 13) for: letting the person walk towards the restricted area if a first scan indicates the probability of the presence of metal lower than a first threshold; in case of a probability higher than the first threshold, prompting the person to carry out a second scan close to a mark (11) on the carpet; and prompting the user to remove his shoes or object if the first scan indicates a probability higher than a second threshold, or if the second scan indicates a probability higher than a third threshold.

A method to make metal-organic frameworks (MOFs) in which a first aqueous solution of a transition metal salt is mixed with a second aqueous solution of an imidazole or alkyl-substituted imidazole to yield a product solution containing MOF crystals. The MOF crystals are used to fabricate electrodes for electrochemical detection of nitro-aromatic compounds.