Patent application number | Description | Published |
20110155586 | Nanogap chemical and biochemical sensors - Devices and methods are presented for electronic sensing of chemical and biochemical analytes. An electronic sensor having a at least two electrodes separated by a nanoscale gap wherein the separation between the first electrode and the second electrode forms a cavity capable of containing a fluid wherein two or more posts comprised of an insulating material extend into the cavity from the face of the first electrode to the face of the second electrode. Optionally, the cavity is closed with a bead. Devices according to embodiments of the invention are capable of detecting chemicals and biochemicals through redox cycling events. Additionally, devices and methods according to embodiments of the invention are adapted to identify and sequence nucleic acid molecules. | 06-30-2011 |
20120046176 | NUCLEIC ACID SEQUENCING - Nucleic acid sequencing using concatemers of DNA is provided. Optionally, amplified reaction products from the repeated incorporation and excision of a nucleoside complementary to a nucleoside of the DNA to be sequenced onto primer molecules hybridized to the concatemers of DNA are detected. Nucleic acid sequencing using concatemers of DNA and non-natural oligonucleotides is also provided. Nucleic acid sequencing reactions are detected electronically and or optically using arrays of detectors. | 02-23-2012 |
20130281325 | DIAMOND ELECTRODE NANOGAP TRANSDUCERS - Embodiments of the invention provide transducers capable of transducing redox active chemical signals into electrical signals. Transducers comprise two electrodes separated by a nanogap. At least one electrode is comprised of conducting diamond. Methods of fabricating nanogap transducers and arrays of nanogap transducers are provided. Arrays of individually addressable nanogap transducers can be disposed on integrated circuit chips and operably coupled to the integrated circuit chip. | 10-24-2013 |
20140001055 | HIGH THROUGHPUT BIOCHEMICAL DETECTION USING SINGLE MOLECULE FINGERPRINTING ARRAYS | 01-02-2014 |
20140083866 | DEVICE AND METHOD FOR DETECTING REDOX REACTIONS IN SOLUTION - Described herein is a device comprising: a plurality of first reaction electrodes arranged in an array, the plurality of first reaction electrodes configured to be exposed to a fluid and having a capacitance; first circuitry configured to controllably set the plurality of first reaction electrode to a predetermined voltage and allow the capacitance of the plurality of first reaction electrode to charge or discharge through the fluid; and second circuitry configured to measure a rate of charging or discharging of the capacitance of the plurality of first reaction electrodes. Also described herein is a method of using this device to sequence DNA. | 03-27-2014 |
20140083871 | DEVICE AND METHOD FOR DETECTING REDOX REACTIONS IN SOLUTION - Described herein is a device comprising a plurality of first reaction electrodes arranged in an array, the plurality of first reaction electrodes configured to be exposed to a solution and having a capacitance; first circuitry configured to controllably connect the plurality of first reaction electrodes to a bias source and controllably disconnect the plurality of first reaction electrodes from the bias source; and second circuitry configured to measure a rate of charging or discharging of the capacitance. Also described herein is a method of using this device to sequence DNA. | 03-27-2014 |
20140190824 | NANOGAP TRANSDUCERS WITH SELECTIVE SURFACE IMMOBILIZATION SITES - Embodiments of the invention provide transducers capable of functioning as electronic sensors and redox cycling sensors. Transducers comprise two electrodes separated by a nanogap. Molecular binding regions proximate to and within the nanogap are provided. Methods of fabricating nanogap transducers and arrays of nanogap transducers are also provided. Arrays of individually addressable nanogap transducers can be disposed on integrated circuit chips and operably coupled to the integrated circuit chip. | 07-10-2014 |
20140299485 | DEVICE AND METHOD FOR DETECTING REDOX REACTIONS IN SOLUTIONS - Described herein is a device comprising a plurality of first reaction electrodes arranged in an array, the plurality of first reaction electrodes configured to be exposed to a solution and having a capacitance; first circuitry configured to controllably connect the plurality of first reaction electrodes to a bias source and controllably disconnect the plurality of first reaction electrodes from the bias source; and second circuitry configured to measure a rate of charging or discharging of the capacitance. Also described herein is a method of using this device to sequence DNA. | 10-09-2014 |