Abstract: An apparatus and method are provided for producing and inspecting a plurality of deposited features in a pattern on a portion of a substrate surface, as in an oligonucleotide array. The apparatus comprises a printhead for depositing a fluid to form the array of features on the substrate surface and a camera for imaging the deposited features. The apparatus also comprises a printhead controller for positioning and activating the inkjet printhead to deposit the array features. The camera, e.g., a digital line scan camera, is controlled by a camera controller such that the camera acquires images corresponding to substantially only the portion of the surface on which features should have been deposited. The camera and printhead are preferably situated such that an induced movement of the printhead relative to the substrate results in a substantially identical corresponding movement of the camera.

Abstract: A sensor device is disclosed, as well as methods and systems for determining a barrier property of each coating of an array of barrier coatings deposited onto a fluid-permeable or fluid-impermeable substrate. The systems and methods include the sensor device having a sensing layer responsive to a fluid of interest for which the barrier property of the array of coatings are desired to be determined. The sensor device further includes an overlayer disposed between the array of barrier coatings and the sensing layer. The overlayer protects the sensing layer from being damaged by the coatings.

Abstract: A device for identifying analytes in a biological sample, including a substrate having a surface lying substantially in a first plane, a plurality of targets, each having a wall lying substantially in a second plane offset from the first plane, and a receptor coating applied to one of the surface and the target walls for binding analytes present in the biological sample when the biological sample is applied to the substrate. A laser beam is sequentially directed onto each of the plurality of target, the laser being positioned relative to the substrate such that when the beam is directed onto a target, a first half of the beam is reflected back to the laser from the wall of the target and a second half of the beam is reflected back to the laser from the surface of the substrate adjacent the target.

Abstract: A fluorescence-based method for highly sensitive and selective detection of analyte molecules is proposed. The method employs the energy transfer between two or more fluorescent chromophores in a carefully selected polymer matrix. In one preferred embodiment, signal amplification has been achieved in the fluorescent sensing of dimethyl methylphosphonate (DMMP) using two dyes, 3-aminofluoranthene (AM) and Nile Red (NR), in a hydrogen bond acidic polymer matrix. The selected polymer matrix quenches the fluorescence of both dyes and shifts dye emission and absorption spectra relative to more inert matrices. Upon DMMP sorption, the AM fluorescence shifts to the red at the same time the NR absorption shifts to the blue, resulting in better band overlap and increased energy transfer between chromophores.

Abstract: An optical sensor is proposed for determining gases in gas mixtures, especially for determining one gas component in the air, having a sensitive layer exposed to the gas and having a device for detecting a change in an optical property of the sensitive layer. The sensitive layer of the sensor contains a phosphorus or nitrogen-containing base having numerous and/or long-chain alkyl groups for the pH adjustment of the sensitive layer.

Abstract: Reaction of a dialdehyde, particularly phthaldialdehyde (I), with R—Z where Z is a nucleophilic group (preferably SH) and R is polymerisable (e.g. allyl) gives a reactive thioacetal (V) which can react with an amine ligand L—NH2 to produce an isoindole (IV) which may be fluorescent. At some stage, generally before interaction with L—NH2, the R groups are polymerised, possibly leading to self-assembly of the polymer on a metal or SH-bearing surface. Such a coated surface is useful as a transducer in assays or as a binding medium e.g. for chromatography.

Abstract: A fluorescence average excited-state lifetime sensor and sensing method comprising a fluorescence excitation light source, light-directing apparatus directing light from the light source to a sample, light-receiving apparatus receiving fluorescence light generated by the sample, and a narrow-band resonance amplifier providing gain necessary to support self-oscillations in an opto-electronic loop comprising the light source, the sample, the light-directing apparatus, the light-receiving apparatus, and the resonance amplifier.

Abstract: Sensing elements, sensor systems and methods for determining the concentration of oxygen and oxygen-related analytes in a medium are provided. The sensing element comprises a solid polymeric matrix material that is permeable to oxygen or an oxygen related analyte and an indicator that is covalently bonded to the solid polymeric matrix material. The indicator is a luminescent platinum group metal polyaromatic chelate complex capable of having its luminescence quenched by the presence of oxygen. The polyaromatic complex comprises three ligands, at least one of which is a bidentate diphenylphenanthroline. The polyaromatic complex is distributed substantially homogenously throughout the matrix material and is covalently bonded to the matrix material via a linker arm. The linker arm is attached to a phenyl group of a diphenylphenanthroline ligand and to the backbone of the polymeric matrix material.

Abstract: A method for detecting fluorescence from a liquid sample housed in a transparent or translucent sample container includes providing a sample container in a sample holder, which is opaque except for a sample container introduction opening and incoming and outgoing openings for excitation light; layering a liquid sample and a shielding liquid unmixable therewith to prevent external light from entering through the sample container introduction opening; introducing excitation light from such a direction that the excitation light can irradiate the liquid sample before irradiating the shielding liquid; and detecting fluorescence, which emits in a direction of avoiding absorption by the shielding liquid.

Abstract: The present invention provides an apparatus for performing heat-exchanging chemical reactions, such as nucleic acid amplification. The apparatus includes a reaction vessel having a chamber for holding a sample for chemical reaction and optical detection. The vessel has a rigid frame defining the side walls of the chamber, and flexible sheets attached to opposite sides of the frame to form opposing major walls of the chamber. The frame further includes a port and a channel connecting the port to the chamber. The temperature of the sample is controlled by opposing plates positioned to receive the chamber of the vessel between them. The apparatus also includes a plunger which is inserted into the channel of the vessel to seal the port and increase pressure in the chamber. The increased pressure forces the flexible major walls of the chamber to contact and conform to the surfaces of the plates, thus ensuring optimal thermal conductance between the plates and the chamber.

Abstract: A fluoroionophore for the fluorescent detection of potassium ions.

Abstract: Fluorescing reference material is used for calibration purposes for improving the measurement accuracy of sensors, especially biosensors, which use fluorescence radiation for determination of signals, the sensors each comprising a waveguide having at least one wave propagation surface as assay, a reactant being supported on the surface, the reactant comprising a species of molecule and being bound to an analytical material within a test medium, the waveguide transmitting an output emission radiation signal when it receives a radiation access signal.

Abstract: A method, apparatus and computer program product, for fabricating an array of biopolymers on a substrate. The method uses a biopolymer or biomonomer fluid and a drop dispenser having a chamber into which the fluid is loaded and an orifice communicating with the chamber from which the fluid is dispensed. The method includes, when the chamber is loaded, applying a prime pressure to the fluid which varies over a range sufficient to move fluid within the drop dispenser but insufficient to cause fluid to be dispensed from the orifice. Drops are dispensed from the dispenser to the substrate so as to form the array.

Abstract: An optical sensor for determining an analyte, specifically oxygen, has a sensor matrix that is made up substantially of a fluoropolymer. The sensor matrix contains a luminescent indicator with a metal complex of ruthenium, rhenium, rhodium or iridium, and with at least one at least partially fluorinated ligand.

Abstract: This invention relates to a method and an apparatus for determining quality properties of fish on the basis of light reflection. A fish and a reflection measurement device (5) with a light emitter and a light receiver (6) are positioned in relation to each other, with the light emitter and light receiver of the device directed towards the fish's inner abdominal wall with peritoneum, so that the light emitter illuminates an area of the fish through the peritoneum and the light receiver captures the light reflected from the fish. The intensity of the reflected light is registered in three or more different wavelength bands, in the visible and near-infrared range. Measurement results registered are, after any processing, entered into an algorithm in a calculation unit, where the algorithm expresses a quality property of the fish.

Abstract: The invention relates to a chemical sensor, sensing system and sensing method which provides for a multi-sensor, cross-reactive, sensor array having a rapid response time, dynamic modulation of sampling parameters, and real-time feedback control of sampling and detection conditions. The device and method provide for smart detection and discrimination of analytes in fluids through intelligent sampling, detection, and control algorithms. The invention further provides for a sensor array having discrete sensor elements dispersed on fluid-permeable, high surface area, porous, textured substrates. The innovative device and method exhibit high sensitivity, discrimination and detection capability for target analytes at ppb and sub ppm concentrations.

Abstract: An optical sensor for detection of gases such as nitrogen oxides includes a thin film of an active material comprising a highly polarisable organic material deposited by the Langmuir-Blodgett technique or otherwise on a substrate and interrogated optically, to detect changes in at least one optical property such as reflectance or complex refractive index. Preferred materials include a specific polysiloxane and low-molecular-mass compounds (FIGS 1 to 5b), having specific electron donating and/or accepting groups, including azobenzenes. The optical change may include a visible colour change.

Abstract: The present invention relates generally to diagnostic assay systems and methods thereof that are capable of conducting and recording assays in a simple and reliable manner.

Abstract: Apparatus or systems which employ luminescence-quenching to produce a signal indicative of oxygen concentration.

Abstract: The present invention relates to a device for the detection of a fluorescent dye in a sample, comprising a radiation source with the aid of which light for exciting the fluorescent dye to be detected can be transmitted into the sample applied to a carrier, and a detecting device for detecting fluorescent light which has been emitted by the fluorescent dye to be detected. The present invention is characterized by a hollow space having an internal high-reflectance surface, a first aperture directed towards the sample, and a second aperture located opposite the detecting device.