Patent application number | Description | Published |
20080305963 | Conductimetric biosensor device, method and system - A multi-array membrane strip biosensor device ( | 12-11-2008 |
20080314766 | Electrically-active ferromagnetic particle conductimetric biosensor test kit - A membrane strip biosensor device ( | 12-25-2008 |
20090050492 | Nanoporous silicon-based electrochemical nucleic acid biosensor - A method and biosensor device for detecting single strand target nucleic acid by cyclic voltammetry is described. A porous silicon chip is linked to bound DNA probe complementary to the target nucleic acid. The device is particularly useful for detecting microorganisms and viruses that may be pathogenic or cancer genes, however any target nucleic acid can be detected by using a specific DNA probe. | 02-26-2009 |
20090123939 | Biologically enhanced electrically-active magnetic nanoparticles for concentration, separation, and detection applications - The disclosure generally relates to a particulate composition formed from a conductive polymer (e.g., conductive polyanilines, polypyrroles, polythiophenes) bound to magnetic nanoparticles (e.g., Fe(II)- and/or Fe(III)-based magnetic metal oxides). The particulate composition can be formed into a biologically enhanced, electrically active magnetic (BEAM) nanoparticle composition by further including a binding pair member (e.g., an antibody) bound to the conductive polymer of the particulate composition. Methods and kits employing the particulate composition and the BEAM nanoparticle composition also are disclosed. | 05-14-2009 |
20090156756 | Synthesis of conducto-magnetic polymers as nano-transducers in biosensor design - A conductive polymer of polyaniline (PANi), tetracyanoquinodimethane (TCNQ) and a transferrin family member. The conductive polymer can be used in conductometric assays, including biosensor devices. One particular transferrin family member provided in the polymer is lactoferrin. | 06-18-2009 |
20120315623 | DETECTION OF CONDUCTIVE POLYMER-LABELED ANALYTES - The disclosure relates to the detection of analytes (e.g., biological pathogens such as bacteria or viruses) using a conductive polymer label. The disclosed detection system utilizing the conductive polymer label generally involves the formation of an analyte conjugate between the target analyte and a conductive polymer moiety conjugated to the target analyte. The conductive polymer portion of the analyte conjugate is electrically activated to form an electrically activated analyte conjugate having an increased electrical conductivity relative to the analyte conjugate as originally formed. The electrically activated analyte conjugate can then be detected by any suitable means, such as by conductimetric or electrochemical detection. | 12-13-2012 |
20120322064 | HYBRIDIZATION PROBES AND METHODS OF THEIR USE - Hybridization probes for hybridizing to the same target nucleic acid are disclosed, the hybridization probes comprising an electrically-active magnetic nanoparticle-labeled detector probe and a capture probe including a conjugating moiety for immobilization. Also disclosed is a biodetection method including the steps of: providing hybridization probes for hybridizing to the same target nucleic acid, the hybridization probes comprising an electrically-active magnetic nanoparticle-labeled detector probe and a capture probe; hybridizing the target nucleic acid with each of the electrically-active magnetic nanoparticle-labeled detector probe and a capture probe in a sample including the target nucleic acid; magnetically separating the hybridized target nucleic acid from the sample; capturing the hybridized target nucleic acid on a substrate through the capture probe; and measuring the oxidation-reduction signal of the electrically-active magnetic nanoparticle-labeled detector probe. | 12-20-2012 |
20140024026 | METALLIC NANOPARTICLE SYNTHESIS WITH CARBOHYDRATE CAPPING AGENT - The disclosure relates to metal nanoparticle compositions and their methods of formation and use, in particular gold nanoparticles (AuNP) and gold-coated magnetic nanoparticles. Compositions according to the disclosure include aqueous suspensions of metal nanoparticles that are stabilized with one or more carbohydrate capping agents and/or that are functionalized with one or more binding pair members for capture/detection of a target analyte. The nanoparticle suspensions are stable for extended periods and can be functionalized as desired at a later point in time, typically prior to use in an assay for the detection of a target biological analyte. The stable nanoparticle suspension can be formed by the aqueous reduction of oxidized metal precursors at non-acidic pH values in the presence of a carbohydrate-based capping agent such as dextrin or other oligosaccharides. | 01-23-2014 |
20140303012 | EXTRACTION AND DETECTION OF PATHOGENS USING CARBOHYDRATE-FUNCTIONALIZED BIOSENSORS - The disclosure relates to the extraction and detection of pathogens using carbohydrate-functionalized biosensors. Immobilized carbohydrate moieties on the biosensor provide a means for non-specific binding of a plurality of target analytes. When a sample containing the target analyte is applied or otherwise transported to the biosensor detection surface, non-specific binding interactions between the carbohydrate moiety and the analyte immobilize/retain the analyte at the detection surface. The carbohydrate moiety is a stable binding pair member that allows on-sensor rinsing of a sample to enhance detection of an analyte in the sample. Specific analyte identification can be achieved with an analyte probe having a detection moiety and a binding pair member specific to the target analyte of interest. | 10-09-2014 |
20140322823 | Metallic Nanoparticle Synthesis with Carbohydrate Capping Agent - The disclosure relates to metal nanoparticle compositions and their methods of formation and use, in particular gold nanoparticles (AuNP) and gold-coated magnetic nanoparticles. Compositions according to the disclosure include aqueous suspensions of metal nanoparticles that are stabilized with one or more carbohydrate capping agents and/or that are functionalized with one or more binding pair members for capture/detection of a target analyte. The nanoparticle suspensions are stable for extended periods and can be functionalized as desired at a later point in time, typically prior to use in an assay for the detection of a target biological analyte. The stable nanoparticle suspension can be formed by the aqueous reduction of oxidized metal precursors at non-acidic pH values in the presence of a carbohydrate-based capping agent such as dextrin or other oligosaccharides. | 10-30-2014 |
20140377772 | Detection of Conductive Polymer-Labeled Analytes - The disclosure relates to the detection of analytes (e.g., biological pathogens such as bacteria or viruses) using a conductive polymer label. The disclosed detection system utilizing the conductive polymer label generally involves the formation of an analyte conjugate between the target analyte and a conductive polymer moiety conjugated to the target analyte. The conductive polymer portion of the analyte conjugate is electrically activated to form an electrically activated analyte conjugate having an increased electrical conductivity relative to the analyte conjugate as originally formed. The electrically activated analyte conjugate can then be detected by any suitable means, such as by conductimetric or electrochemical detection. | 12-25-2014 |
20150050747 | DIRECTED DNA CO-POLYMER MASS AMPLIFICATION FOR ssDNA DETECTION - The disclosure generally relates to the use of a bio-barcode (BBC) method for capture and demonstrates hybridization co-polymerization amplification readout of the BBC as a method of rapid detection of single stranded DNA output with an increased sensitivity for the initial target input to the BBC assay. The BBC assay reporter ssDNA can be modified for rapid readout. Two ssDNA molecules are designed to co-polymerize and then continually hybridize into double stranded DNA. The double stranded DNA can be optically and/or electrically detected. Kits related to the two ssDNA molecules and the BBC assay also are disclosed. | 02-19-2015 |