Abstract: Analyte survey systems (100) and related techniques are provided to improve the operation of handheld or unmanned mobile sensor or survey platforms. An analyte survey system includes a logic device (112) configured to communicate with a communication module (164) and a sensor assembly (166) of a modular sensor core (160), where the communication module is configured to establish a wireless communication link with a base station (130) associated with the modular sensor core and/or a mobile sensor platform (110) and the sensor assembly is configured to provide analyte sensor data as the modular sensor core is maneuvered within a survey area.

Abstract: A fencing bracket having a box structure having opposing left and right sidewalls extending from opposing longitudinal ends forming a U-shaped cross-section, and a return support flange disposed at a lower edge thereof, wherein the left and the right sidewall have a pair of aligned cross beam openings and a first and second opening respectively. The fencing bracket includes a strap having a first fiat portion having a third opening, a middle portion (that is either rounded or rectangular), and a second flat portion having a fourth opening, the middle portion is between the first flat portion and the second flat portion. The first opening is aligned with the third opening and the second opening is aligned with the fourth opening, and a fastener passes through the first, second, third and fourth openings and is retained via another fastener at either the third or fourth opening.

Abstract: A method for efficiently decontaminating surfaces is provided comprising applying an indicator to a surface wherein the indicator provides an observable or machine readable response when a contamination is present on the surface, wherein the response is located relative to a location of the contamination; and decontaminating the location of the contamination, and optionally rechecking the location of the initial contamination post decontamination to ensure that the surface is free of contamination.

Abstract: A method for efficiently decontaminating surfaces is provided comprising applying an indicator to a surface wherein the indicator provides an observable or machine readable response when a contamination is present on the surface, wherein the response is located relative to a location of the contamination; and decontaminating the location of the contamination, and optionally rechecking the location of the initial contamination post decontamination to ensure that the surface is free of contamination.

Abstract: A method for efficiently decontaminating surfaces is provided comprising applying an indicator to a surface wherein the indicator provides an observable or machine readable response when a contamination is present on the surface, wherein the response is located relative to a location of the contamination; and decontaminating the location of the contamination, and optionally rechecking the location of the initial contamination post decontamination to ensure that the surface is free of contamination.

Abstract: An aqueous enzyme based sensor comprising one or more enzymes and at least one indicator compound capable of indicating a reaction of at least one of the enzymes with at least one target analyte, wherein the enzyme and the indicator are capable of being delivered, preferably by being sprayed, to a surface having the target analyte without sampling the surface. An aqueous enzyme based sensor is provided that is capable of detecting an enzyme specific substrate as the analyte. This aqueous enzyme based sensor further comprises of one or more enzyme specific substrates in which the sensor detects enzyme inhibition. The aqueous enzyme based sensor optionally comprises one or more of a light scattering additive(s), an adhesive polymer(s), a protein stabilizer(s), a protein stabilizing sugar(s), a surfactant(s), and a solvent(s), and combinations thereof. A dispensing system and a method of detecting a target chemical on a surface without sampling the surface is provided.

Abstract: A method for efficiently decontaminating surfaces is provided comprising applying an indicator to a surface wherein the indicator provides an observable or machine readable response when a contamination is present on the surface, wherein the response is located relative to a location of the contamination; and decontaminating the location of the contamination, and optionally rechecking the location of the initial contamination post decontamination to ensure that the surface is free of contamination.

Abstract: A method and device are disclosed for continuously detecting, classifying and identifying toxic particles, aerosols and/or vapor in an air sample, in near real time by directing an air sample containing an optional target analyte, in the form of particles, aerosols and/or vapors, enzyme(s), and enzyme substrate(s), to a surface of a collection matrix for forming a biocatalytic reaction product of a plurality of freely mobile optical reporters, and by using a light source with optical reader to interpret the signal from the optical reporter, enabling the detection, classification and identification of toxic particles, aerosols and/or vapor in the air sample.

Abstract: A method and device are disclosed for continuously detecting, classifying and identifying toxic particles, aerosols and/or vapor in an air sample, in near real time by directing an air sample containing an optional target analyte, in the form of particles, aerosols and/or vapors, enzyme(s), and enzyme substrate(s), to a surface of a collection matrix for forming a biocatalytic reaction product of a plurality of freely mobile optical reporters, and by using a light source with optical reader to interpret the signal from the optical reporter, enabling the detection, classification and identification of toxic particles, aerosols and/or vapor in the air sample.

Abstract: An aqueous enzyme based sensor comprising one or more enzymes and at least one indicator compound capable of indicating a reaction of at least one of the enzymes with at least one target analyte, wherein the enzyme and the indicator are capable of being delivered, preferably by being sprayed, to a surface having the target analyte without sampling the surface. An aqueous enzyme based sensor is provided that is capable of detecting an enzyme specific substrate as the analyte. This aqueous enzyme based sensor further comprises of one or more enzyme specific substrates in which the sensor detects enzyme inhibition. The aqueous enzyme based sensor optionally comprises one or more of a light scattering additive(s), an adhesive polymer(s), a protein stabilizer(s), a protein stabilizing sugar(s), a surfactant(s), and a solvent(s), and combinations thereof. A dispensing system and a method of detecting a target chemical on a surface without sampling the surface is provided.

Abstract: A device for continuous detection of the presence of a cyanide analyte and/or cyanogen analyte in an aqueous sample which relies upon continuous sampling and controlled delivery of reagents for a chemical reaction which forms a colored dye in the presence of the analyte(s). The device employs a single chemical detection pathway which detects both cyanide and cyanogen and demonstrates continuous user-free operational stability over at least a one month period of time. The continuous monitoring device optionally may include a command post computer interface for enabling the remote monitoring of one or more devices, a wireless communication module for providing real-time data monitoring of the devices to a central monitoring facility, and a global positioning system module to enable the determination of an exact location of the analyte contamination in a water network. A method for detecting these analytes is also provided.

Abstract: A sensor for the intermittent or continuous detection of the presence of at least one analyte in an environmental sample includes at least one enzyme that is selected to either (i) catalyze a reaction of the analyte to chemically convert the analyte to a product compound or (ii) be inhibited by the analyte in the presence of a substrate compound. The sensor also includes at least one sensor for monitoring or at least one indicator compound selected to produce a measurable change of state as a result of the interaction of the analyte and the enzyme. Optionally, each of the enzyme and the indicator compound are incorporated within a single polymer.

Abstract: A sensor for the intermittent or continuous detection of the presence of at least one analyte in an environmental sample includes at least one enzyme that is selected to either (i) catalyze a reaction of the analyte to chemically convert the analyte to a product compound or (ii) be inhibited by the analyte in the presence of a substrate compound. The sensor also includes at least one sensor for monitoring or at least one indicator compound selected to produce a measurable change of state as a result of the interaction of the analyte and the enzyme. Optionally, each of the enzyme and the indicator compound are incorporated within a single polymer.

Abstract: A sensor for the detection of an analyte includes a first reagent in one section of the housing and at least a second reagent in another section of the housing. The sensor also includes a reservoir of a carrier fluid (that is, a liquid or a gas) within the housing. A release mechanism of the sensor is in operable connection with the reservoir so that when the release mechanism is activated, the carrier fluid is released from the reservoir. The carrier fluid mobilizes the second reagent to contact the first reagent with the second reagent. The interaction of the first reagent and the second reagent is affected by the presence or absence of the analyte to cause a measurable change of state within the sensor.

Abstract: A sensor for detecting an analyte in an environment includes a first reaction system including a first enzyme and a substrate for the first enzyme. The analyte inhibits the reaction of the substrate catalyzed by the first enzyme (in other words, the analyte inhibits the first enzyme). The sensor further includes at least a second reaction system that reacts to produce a first detectable state when the first enzyme is inhibited. In some embodiments, the reaction of the first reaction system can produce a second detectible state, different from the first detectible state. Another sensor for detecting an analyte in an environment includes a first reaction system including a first enzyme or a first substrate for the first enzyme. In this embodiment, the analyte is either a substrate for the first enzyme if the first reaction system includes the first enzyme or the first enzyme if the first reaction system includes the first substrate.

Abstract: A sensor for the detection of an analyte includes a first reagent in one section of the housing and at least a second reagent in another section of the housing. The sensor also includes a reservoir of a carrier fluid (that is, a liquid or a gas) within the housing. A release mechanism of the sensor is in operable connection with the reservoir so that when the release mechanism is activated, the carrier fluid is released from the reservoir. The carrier fluid mobilizes the second reagent to contact the first reagent with the second reagent. The interaction of the first reagent and the second reagent is affected by the presence or absence of the analyte to cause a measurable change of state within the sensor.

Abstract: A sensor for detecting an analyte in an environment includes a first reaction system including a first enzyme and a substrate for the first enzyme. The analyte inhibits the reaction of the substrate catalyzed by the first enzyme (in other words, the analyte inhibits the first enzyme). The sensor further includes at least a second reaction system that reacts to produce a first detectable state when the first enzyme is inhibited. In some embodiments, the reaction of the first reaction system can produce a second detectible state, different from the first detectible state. Another sensor for detecting an analyte in an environment includes a first reaction system including a first enzyme or a first substrate for the first enzyme. In this embodiment, the analyte is either a substrate for the first enzyme if the first reaction system includes the first enzyme or the first enzyme if the first reaction system includes the first substrate.