Abstract: A sensor and method for making a sensor includes providing a substrate having an adhesion layer with a first functional group operatively associated with a sol-gel composition having a second functional group, and at least one linker material for connecting the first functional group to the second functional group. In another embodiment, a sensor and method for making the sensor includes providing a sol-gel layer operatively associated with a sol-gel precursor solution that includes at least one co-polymer and at least one solvent adapted to resist the deformation of the sol-gel layer by decreasing evaporation, decreasing cross-linking, increasing intermolecular forces, or increasing elasticity.

Abstract: A method and miniature analytical device with thermal regulation of reactant using a localized heat source capable of emitting electromagnetic radiation, such as light emitting diodes (“LED”s) and vertical cavity surface emitting lasers (“VCSEL”s), generating internal heat, such as resistive, inductive and Peltier heaters, or external heating. The miniature analytical device comprises of array of temperature-controlled zones to restrict the volume heated and localize the heating by having the localized heat source comprise an array of emitters or heaters.

Abstract: An apparatus and method for pumping and optionally mixing of small quantities of biological fluid wherein the pumping mechanism is segregated from the biological fluid being pumped. The micro-pump pushes the biological fluid by compressing a cartridge housing the blood and reagents with collapsible walls with a roller or ball bearing, synchronized perpendicular plungers, or an acutely-angled member to push the biological fluid by collapsing the walls of the cartridge in the direction of flow.

Abstract: The invention provides an apparatus and method for detection of a target molecule. The apparatus includes a probe labeled with a transition metal-ligand complex that hybridizes with the target to form an initial complex, a metal ion for doping the initial complex and forming a final complex, and a potential means for providing a potential to the final complex to produce a detectable signal indicating the presence of the target after redox reaction. The method of the invention teaches the steps of hybridizing a probe with an attached label to the target to produce an initial complex, adding a metal ion to the initial complex to form a final complex and applying a potential to the final complex to produce a measurable signal.

Abstract: The invention provides an apparatus and method for detection of a target molecule. The apparatus includes a probe labeled with a transition metal-ligand complex that hybridizes with the target to form an initial complex, a metal ion for doping the initial complex and forming a final complex, and a potential means for providing a potential to the final complex to produce a detectable signal indicating the presence of the target after redox reaction. The method of the invention teaches the steps of hybridizing a probe with an attached label to the target to produce an initial complex, adding a metal ion to the initial complex to form a final complex and applying a potential to the final complex to produce a measurable signal.

Abstract: The invention provides an apparatus and method for detection of a target molecule. The apparatus includes a probe labeled with a transition metal-ligand complex that hybridizes with the target to form an initial complex, a metal ion for doping the initial complex and forming a final complex, and a potential means for providing a potential to the final complex to produce a detectable signal indicating the presence of the target after redox reaction. The method of the invention teaches the steps of hybridizing a probe with an attached label to the target to produce an initial complex, adding a metal ion to the initial complex to form a final complex and applying a potential to the final complex to produce a measurable signal.

Abstract: The invention includes a composition of matter and method that utilizes energy transfer between one or more donor and acceptor molecules. The composition of matter includes an encapsulation vesicle having a matrix, a surface coating of an organo-metallic complex and a transparent protection layer. The transparent protection layer is capable of modification by addition of biomolecules to the surface in order to bind other molecules. The proximity of the bound biomolecules to the protective layer allows for energy transfer from a donor molecule internal to the protection layer to an acceptor molecule outside the protection layer. The protection layer acts to diminish the effects of collisional quenching on the donor molecules caused by ubiquitous small molecules such as molecular oxygen. The application also teaches a method of making and applying the complexes to immunoassays.

Abstract: The invention provides an apparatus and method for detection of a target molecule. The apparatus includes a probe labeled with a transition metal-ligand complex that hybridizes with the target to form an initial complex, a metal ion for doping the initial complex and forming a final complex, and a potential means for providing a potential to the final complex to produce a detectable signal indicating the presence of the target after redox reaction. The method of the invention teaches the steps of hybridizing a probe with an attached label to the target to produce an initial complex, adding a metal ion to the initial complex to form a final complex and applying a potential to the final complex to produce a measurable signal.

Abstract: The invention provides electrochemiluminescent metal chelates and methods for using these chelates in chemical and biological assays, particularly immunoassays and microarray assays.

Abstract: The invention provides an apparatus and method for detection of a target molecule. The apparatus includes a probe labeled with a transition metal-ligand complex that hybridizes with the target to form an initial complex, a metal ion for doping the initial complex and forming a final complex, and a potential means for providing a potential to the final complex to produce a detectable signal indicating the presence of the target after redox reaction. The method of the invention teaches the steps of hybridizing a probe with an attached label to the target to produce an initial complex, adding a metal ion to the initial complex to form a final complex and applying a potential to the final complex to produce a measurable signal.

Abstract: A sensor and method for making a sensor includes providing a substrate having an adhesion layer with a first functional group operatively associated with a sol-gel composition having a second functional group, and at least one linker material for connecting the first functional group to the second functional group. In another embodiment, a sensor and method for making the sensor includes providing a sol-gel layer operatively associated with a sol-gel precursor solution that includes at least one co-polymer and at least one solvent adapted to resist the deformation of the sol-gel layer by decreasing evaporation, decreasing cross-linking, increasing intermolecular forces, or increasing elasticity.

Abstract: A sensor element is formed from a sensing material immobilized by covalent bonding, such as nitrogen-carbon bonding, to a sol-gel glass or sol-gel copolymer to reduce leaching. A method of manufacturing such a sensor element involves covalently bonding the sensing material with the sol-gel precursor before hydrolysis of an organic silicate used in the process, or after the sol-gel matrix formation. Alternatively, the sol-gel can be surface treated to generate functional groups that facilitate the covalent bond formation.

Abstract: An apparatus and method for pumping and optionally mixing of small quantities of biological fluid wherein the pumping mechanism is segregated from the biological fluid being pumped. The micro-pump pushes the biological fluid by compressing a cartridge housing the blood and reagents with collapsible walls with a roller or ball bearing, synchronized perpendicular plungers, or an acutely-angled member to push the biological fluid by collapsing the walls of the cartridge in the direction of flow.

Abstract: A method and miniature analytical device with thermal regulation of reactants using a localized heat source capable of emitting electromagnetic radiation, such as light emitting diodes (“LED”s) and vertical cavity surface emitting lasers (“VCSEL”s), generating internal heat, such as resistive, inductive and Peltier heaters, or external heating. The miniature analytical device comprises of array of temperature-controlled zones to restrict the volume heated and localize the heating by having the localized heat source comprise an array of emitters or heaters.

Abstract: A method and apparatus comprising a companion cartridge containing a reagent storage system, a calibration fluid system, an assay element storage system, a carrier fluid system, and a waste retrieval system connected to a sensing cartridge to conduct chemical analysis. The companion cartridge can be adapted for assays related to blood chemistry, hematology, immuno-diagnostics, and DNA testing.

Abstract: The invention provides an apparatus and method for detection of a target molecule. The apparatus includes a probe labeled with a transition metal-ligand complex that hybridizes with the target to form an initial complex, a metal ion for doping the initial complex and forming a final complex, and a potential means for providing a potential to the final complex to produce a detectable signal indicating the presence of the target after redox reaction. The method of the invention teaches the steps of hybridizing a probe with an attached label to the target to produce an initial complex, adding a metal ion to the initial complex to form a final complex and applying a potential to the final complex to produce a measurable signal.

Abstract: A composite detector device that incorporates a plurality of types of detector elements to cover a broad wavelength range. There may be one or more individual detector elements of each detector type. The individual detector elements are positioned upon a single substrate so that when light from a sample passes through a spectral dispersing element, each detector element is exposed to light of a predetermined, limited wavelength range.

Abstract: The invention includes a composition of matter and method that utilizes energy transfer between one or more donor and acceptor molecules. The composition of matter includes an encapsulation vesicle having a matrix, a surface coating of an organo-metallic complex and a transparent protection layer. The transparent protection layer is capable of modification by addition of biomolecules to the surface in order to bind other molecules. The proximity of the bound biomolecules to the protective layer allows for energy transfer from a donor molecule internal to the protection layer to an acceptor molecule outside the protection layer. The protection layer acts to diminish the effects of collisional quenching on the donor molecules caused by ubiquitous small molecules such as molecular oxygen. The application also teaches a method of making and applying the complexes to immunoassays.

Abstract: A device for analyzing simultaneously multiple analytes in a fluid of unknown composition. The device includes a plurality of sensors, a light source for providing light to shine on the sensors, light detectors, and a processor. The sensors are exposed to a sample of the fluid of unknown composition. The plurality of sensors includes groups of sensors, each group targeting a specific analyte and including one or more sensors that contain an analyte-specific chemical that interacts more specifically with one analyte than with some other analytes to be analyzed. Each sensor in each group has a different chemical interacting with the analyte to target it. The light source shines light on the sensors of the plurality of sensors to cause light interaction with the sensors. The differences in the sensors lead to differences in the light interaction. The light detectors detects the light interaction by the sensors.

Abstract: A device for sampling and analyzing a physiological fluid from the skin of a patient by puncture. The device includes a body and sensors. The body has a needle with a point for puncturing a physiological tissue and a channel in the body for conducting the physiological fluid away from the point. The sensors are located in the body and are accessible to the physiological fluid conducting along the channel for physiological fluid analysis. The device can be used to lance the skin and obtain a representative sample of the physiological fluid, with relatively simple procedures and quick analysis to minimize the exposure of the physiological fluid sample to air.