Abstract: A centrifuge tube assembly comprising an elongated vial having an open upper end and a closed lower end with a lid mounted on the upper end thereof. The lid has a central opening formed therein which rotatably receives an elongated inner tube extending downwardly into the vial with the bottom of the inner tube being received by an upstanding bottom tube. The lower end of the inner tube has a pair of vertically spaced-apart upper and lower ports. The bottom tube has a pair of upper and lower ports formed therein which are radially offset with respect to one another. A tube actuator is secured to the upper end of the inner tube to facilitate the rotation of the inner tube between first and second positions. When the inner tube is in its first position, the lower ports of the inner tube and bottom tube are in register. When the tube actuator is in its second position, the upper ports of the inner tube and the bottom tube are in register.

Abstract: Disclosed are methods for fabricating integrated nano-scale and micro-scale structures. Also disclosed are carbon nanopipettes, shovels, and sheets made by these methods. Nano-scale and micro-scale structures fabricated by the disclosed methods are useful in a variety of application, for example, nanoelectrodes, functionalized probes for chemical and biological sensing, nanopipettes for fluid and macromolecule transfer, and devices for the dispensing and deposition of nanodrops.

Abstract: A method for measuring a concentration of creatinine includes the steps of: (A) mixing a sample containing creatinine with a creatinine quantitative reagent containing a metal complex of at least one of hexacyanoferrate and hexacyanoruthenate in the absence of picric acid and any enzyme responsive to creatinine, to cause the creatinine to reduce the metal complex; (B) electrochemically or optically measuring the amount of the metal complex reduced in the step (A); and (C) determining the concentration of the creatinine contained in the sample from the amount of the reduced metal complex measured in the step (B).

Abstract: This invention relates to the preparation of N-(phosphonomethyl)glycine (“glyphosate”) from N-(phosphonomethyl)iminodiacetic acid (“PMIDA”), and more particularly to methods for control of the conversion of PMIDA, for the identification of reaction end points relating to PMIDA conversion and the preparation of glyphosate products having controlled PMIDA content.

Abstract: The present invention provides a series of systems, devices, and methods relating to the determination of explosives, such as peroxides or peroxide precursors, and other species. Embodiments of the invention may allow a sample suspected of containing an explosive (e.g., a peroxide) or other species to interact with a reactant, wherein the sample may react and cause light emission from the reactant. Advantages of the present invention may include the simplification of devices for determination of peroxide-based explosives, wherein the devices are portable and, in some cases, disposable. Other advantages may include relative ease of fabrication and operation.

Abstract: A method of detecting a substance present in a gas or a gas mixture using SIFT-MS technology comprising the steps of inducing a supply of alkoxymethyl cations into the inlet of the flow tube, reacting a sample of the as with the alkoxymethyl cations, analysing the reacted gas sample, and calculating the concentration of trace levels of molecules containing heteroatoms in the reacted gas sample.

Abstract: A composite wood product and methods for manufacturing the same and determining the concentration and distribution of an organic biocide within a composite wood product are provided. The organic biocide may be added to wood elements (i.e., fibers, flakes, strands, veneers) prior to consolidation and/or heating of the wood particles to form the composite wood product. A tracer additive may be mixed with the biocide, or applied separately to the furnish which is used to produce the composite wood product. The tracer additive may be detected via, for example, x-ray fluorescence. An amount of tracer additive detected may correlate to an amount of organic biocide within the wood elements and/or the composite wood product.

Abstract: A fluorescent molecular wire is provided, having a fluorescent polymer main chain to which an optically active substituent is linked so as to be conjugatable form, the optically active substituent being represented by formula (I) below: where R1 represents a hydrogen atom or an alkyl group having 1 to 10 carbon atoms; R2, R3, R4, R5, R6, R7, R8, and R9 represent independently a hydrogen atom, a linear alkyl group having 1 to 30 carbon atoms that may have a substituent, a branched alkyl group having 2 to 30 carbon atoms that may have a substituent, a cyclic alkyl group having 3 to 30 carbon atoms that may have a substituent, an aryl group having 6 to 30 carbon atoms that may have a substituent, or an aralkyl group having 7 to 30 carbon atoms that may have a substituent, and R3 and R7 may be bonded respectively to R4 and R8 to form an alkylene group having 2 to 60 carbon atoms that may have a substituent; and R10 and R11 represent independently a hydrogen atom or an alkyl group having 1 to 15 carbon atoms t

Abstract: The present invention generally relates to sub-diffraction image resolution and other imaging techniques. In one aspect, the invention is directed to determining and/or imaging light from two or more entities separated by a distance less than the diffraction limit of the incident light. For example, the entities may be separated by a distance of less than about 1000 nm, or less than about 300 nm for visible light. In one set of embodiments, the entities may be selectively activatable, i.e., one entity can be activated to produce light, without activating other entities. A first entity may be activated and determined (e.g., by determining light emitted by the entity), then a second entity may be activated and determined. The emitted light may be used to determine the positions of the first and second entities, for example, using Gaussian fitting or other mathematical techniques, and in some cases, with sub-diffraction resolution.

Abstract: An apparatus for mixing a liquid in a container in order to provide a homogeneous solution or suspension of the liquid in the container. In particular, the apparatus of this invention can be used to provide a homogenous dispersion of particulate material in a liquid medium.

Abstract: A method for monitoring a chemical component in an industrial water system comprises irradiating a liquid sample from an industrial water system, containing at least one chemical component to be monitored, with light from an excitation light source. Room temperature phosphorescence emitted from the sample is detected after irradiation. The concentration of the chemical component to be monitored is then calculated from the detected room temperature phosphorescence. The liquid sample includes at least one room temperature phosphorescent material (RTPM) and at least one heavy atom perturber (HAP) dissolved therein. The HAP is present in the sample at a concentration sufficient to induce phosphorescence activity in the RTPM. The liquid sample is irradiated in a manner sufficient to induce the RTPM within the sample to emit room temperature phosphorescence, and the calculated concentration of the chemical component to be monitored is a function of the room temperature phosphorescence intensity or temporal metric.

Abstract: The invention provides a method for producing a homogenous sample of a pressurized fluid stream flowing in a pipeline, the fluid stream consisting of a majority component of hydrocarbon gas, the remainder consisting of one or more hydrocarbon liquids and water in the form of vapor, aerosols, droplets and/or liquid streams, the method includes the steps of: a. injecting one or more surface active agents into the fluid stream in an injection zone at a rate that is sufficient to form a uniform foam of the gas and the one or more hydrocarbon liquids and water components; b. mixing the one or more surface active agents with the fluid stream in a mixing zone to form a uniform foam composition flowing in the pipeline downstream of the mixing zone; c. withdrawing a portion of the foam composition from the pipeline at a sampling point; d. passing the portion of the foam composition withdrawn through a sampling loop; and e.

Abstract: The invention relates to the use of at least one polymer comprising a repeating unit of formula (I): in which: X and Y=single bond or linear C1-C50 hydrocarbon group; R1 and R2=H, CN, C(Z)3, CH(Z)2, CH2Z with Z=halogen; NH2, NHR3, NR3R4 with R3, R4=halogen, CH3 or linear or branched, saturated or unsaturated C2-C20 hydrocarbon chain, optionally comprising one or more heteroatoms and/or chemical functions comprising at least one heteroatom; at least one from among R1 and R2 being ?H; or of a composite comprising this polymer and one or more conductive charges, as sensitive material in a sensor for detecting nitro compounds. Applications: Detection of explosives, control/monitoring of atmospheric pollution and of ambient air quality, monitoring of industrial sites.

Abstract: Methods for testing the chromatography type and/or the integrity of a chromatography membrane or monolith, preferably, for testing the chromatography type and integrity of a chromatography device comprising a chromatography membrane or chromatography monolith while the membrane or monolith is sealed in a housing, are disclosed.

Abstract: A fragrance product is disclosed including a container containing liquid fragrance and a dispenser assembly for dispensing the liquid fragrance including a transport assembly and a tube connected to the transport assembly and extending into the liquid fragrance. The tube and the liquid fragrance each have a refractive index, and the difference between the refractive index of the tube and the liquid fragrance is not greater than about 0.04.

Abstract: A fragrance product is disclosed including a container containing liquid fragrance and a dispenser assembly for dispensing the liquid fragrance including a transport assembly and a tube connected to the transport assembly and extending into the liquid fragrance. The tube and the liquid fragrance each have a refractive index, and the difference between the refractive index of the tube and the liquid fragrance is not greater than about 0.04.

Abstract: To provide an NOx removal catalyst management unit for use with an NOx removal apparatus, the management unit detecting an NOx removal catalyst layer that is actually deteriorated, whereby the deteriorated catalyst layer can be effectively replaced by a new catalyst layer, and to provide a method for managing the NOx removal catalyst. The management unit for managing a plurality of NOx removal catalyst layers provided in a flue gas NOx removal apparatus includes NOx measurement means 16A through 16E for determining NOx concentrations on the inlet and outlet sides of respective NOx removal catalyst layers 14A through 14D; NH3 measurement means 17A through 17E for determining NH3 concentrations on the inlet and outlet sides of the same NOx removal catalyst layers; and percent NOx removal determination means 18 for determining percent NOx removal (?) on the basis of an inlet mole ratio (i.e., inlet NH3/inlet NOx).

Abstract: Applicants have produced a chromophore and a polymer that are highly sensitive to the presence of various agents, including organophosphates, pesticides, neurotoxins, metal ions, some explosives, and biological toxins. The detection is accomplished by detecting a change in the fluorescence characteristics of the chromophore or polymer when in the presence of the agent to be detected. The chromophore and polymer may be incorporated into sensors of various types, and they are adaptable for potential field use in areas where detection of these types of agents is desired.

Abstract: A method for evaluating the spatial distribution of an ionomer in a fuel cell MEA. The method includes embedding the MEA in an epoxy, and then slicing thin sections from the MEA. The sliced sections are then exposed to a titanium tetrachloride vapor that stains the epoxy. The stained sections are then viewed with, for example, a transmission electron microscope (TEM) where the lighter regions in the TEM image show the ionomer distribution.

Abstract: Vials used for obtaining an aliquot of a biological sample are provided. Also provided are method of using the vials and instruments to obtain an aliquot of a biological sample.