Patent application number | Description | Published |
20100047901 | SYSTEM AND METHOD FOR ELECTRONIC SENSING OF BIOMOLECULES - A nanoelectronic device is combined with a cellular membrane component to provide a sensor for biomolecules or to provide information about the structure of the membrane. The nanoelectronic device may comprise a network of randomly-oriented nanotubes, or other nanostructure, arranged on a substrate with adjacent electrodes so as to operate as a field-effect transistor sensor or as a capacitive sensor. A cellular membrane is disposed over the nanostructure element. | 02-25-2010 |
20100056892 | NANOELECTRONIC MEASUREMENT SYSTEM FOR PHYSIOLOGIC GASES AND IMPROVED NANOSENSOR FOR CARBON DIOXIDE - A system for measuring an analyte of interest, particularly carbon dioxide, dissolved in a fluid media of a patient including a nanoelectronic sensor and a measurement instrument in communication with the sensor and configured to receive at least a signal from the sensor indicative of a response of the sensor to at least the analyte of interest. | 03-04-2010 |
20100190239 | DEGRADATION OF NANOMATERIALS - A method of degrading carbon nanomaterials includes mixing the carbon nanomaterials with a composition comprising a peroxide substrate and at least one catalyst selected from the group of an enzyme and an enzyme analog. The peroxide substrate undergoes a reaction in the presence of the catalyst to produce an agent interactive with the nanotubes to degrade the carbon nanomaterials. The peroxide substrate can, for example, be hydrogen peroxide or an organic peroxide. | 07-29-2010 |
20100282245 | Detection of nitric oxide - A system for the detection of nitric oxide in a gas sample includes a converter for oxidation of nitric oxide to nitrogen dioxide, a nitrogen dioxide sensor including nanostructures and a filtering device to remove at least carbon dioxide from the gas sample positioned upstream of the converter. The nitrogen dioxide sensor can, for example, include a recognition layer on the nanostructures adapted to enhance sensitivity to nitrogen dioxide. A method for detecting nitric oxide in exhaled breath includes detecting nitric oxide in the exhaled breath using a nitric oxide sensor including nanostructures. Another method for detecting nitric oxide in exhaled breath includes filtering the breath to remove at least carbon dioxide from the breath, oxidizing nitric oxide in the exhaled breath to nitrogen dioxide and detecting the nitrogen dioxide using a nitrogen dioxide sensor including nanostructures. | 11-11-2010 |
20100323925 | Nanosensor array for electronic olfaction - A detector system is described including arrays having a plurality of nanoelectronic sensors comprising a channel including a nanostructured element disposed on a substrate, the nanostructured element functionalized by one or more materials disposed on or adjacent to the nanostructured element so as to operatively influence one or more sensor electrical properties. In certain embodiments, the nanostructured element comprise one or more nanotubes, and the functionalization material may include nanoparticles composed of one or more metals, metal oxides, salts, or other inorganic or organic materials or composites of these. | 12-23-2010 |
20110127446 | NANOSTRUCTURE SYSTEMS AND METHODS FOR SENSING AN ANALYTE - A method of detecting an analyte in an environment, includes immobilizing at least one photoactive composition on nanostructures, the photoactive composition exhibiting emission that is sensitive to the analyte; applying electromagnetic radiation to the immobilized photoactive moiety for a period of time; measuring at least one response; and using the measured response to determine the presence the analyte in the environment. The nanostructures can, for example, include carbon nanostructures. In a number of embodiments, the analyte is oxygen. | 06-02-2011 |
20130040283 | GRAPHENE COMPOSITION, METHOD OF FORMING A GRAPHENE COMPOSITION AND SENSOR SYSTEM COMPRISING A GRAPHENE COMPOSITION - A method of forming a composition includes oxidation of graphene oxide to form holey graphene oxide having defects therein and reduction of the holey graphene oxide. | 02-14-2013 |
20130040397 | DETECTION OF HYDROGEN SULFIDE GAS USING CARBON NANOTUBE-BASED CHEMICAL SENSORS - A method for preparing carbon allotrope based sulfide detectors comprising first functionalizing a carbon allotrope, such as a single-walled carbon nanotubes or graphene, with a solution of a polynuclear aromatic hydrocarbon-sulfonic acid, such as 1-pyrenesulfonic acid, followed by treatment with a metal, such as gold nanowires or cupric salt doped polyaniline, to give a metal-functionalized carbon allotrope, then drop casting the metal-functionalized carbon allotrope onto an inert surface, such as a silicon dioxide film on a silicon wafer having electrodes. Detection of sulfides may be by means such as photochemical or conductance methods. The hydrogen sulfide detectors may be used to detect and/or quantitate ppb and ppm levels of hydrogen sulfide in industrial settings or in detecting halitosis. | 02-14-2013 |
20130075690 | Ammonia Nanosensors, and Environmental Control System - Embodiments of nanoelectronic sensors are described, including sensors for detecting analytes such ammonia. An environmental control system employing nanoelectronic sensors is described. A personnel safety system configured as a disposable badge employing nanoelectronic sensors is described. A method of dynamic sampling and exposure of a sensor providing a number of operational advantages is described. | 03-28-2013 |
20130224761 | NON COVALENT MOLECULAR STRUCTURE, COMPRISING A PORPHYRIN BASED GLYCOCONJUGATE, DEVICE COMPRISING THE SAME AND ITS USE FOR DETECTION OF LECTIN - The present invention relates to a non covalent molecular structure comprising a carbon nanostructure and a porphyrin based glycoconjugate (I) which is linked to the said carbon nanostructure by a non covalent link, the said glycoconjugate (I) having the formula (I): wherein M is a metal selected in the group comprising Fe, Ni, Zn, Cu, Mn, Cr or Co, B is a group which is present on at least one of the four phenyl group (C | 08-29-2013 |
20140318990 | pH SENSOR SYSTEM AND METHODS OF SENSING pH - A system for measuring pH includes a substrate and a sensor medium on the substrate. The sensor medium includes at least one oxidized carbon nanostructure and optionally at least one composition immobilized on the at least one oxidized carbon nanostructure. The at least one composition has at least one property that depends on pH. The system further includes at least one measurement system to measure a property of the sensor medium. | 10-30-2014 |
20150073290 | DETECTION OF ACETONE VIA NANOSTRUCTURE SENSORS - A method of detecting at least one of analyte in an environment (such as in breath) includes providing a structure including nanostructures in contact with titanium dioxide, applying electromagnetic radiation to the structure for a period of time, measuring at least one response and using the measured response to determine the presence of the analyte in the environment. | 03-12-2015 |
20150086977 | GRAPHENE COMPOSITION, METHOD OF FORMING A GRAPHENE COMPOSITION AND SENSOR SYSTEM COMPRISING A GRAPHENE COMPOSITION - A device including a composition formed by oxidation of graphene oxide to form holey graphene oxide having defects therein and reduction of the holey graphene oxide. A composition includes graphene oxide sheets including holes therein formed by oxidation to form a network of interconnected graphene oxide nanoribbons. | 03-26-2015 |
Patent application number | Description | Published |
20090101996 | NANOSTRUCTURES WITH ELECTRODEPOSITED NANOPARTICLES - A nanoelectronic device includes a nanostructure, such as a nanotube or network of nanotube, disposed on a substrate. Nanoparticles are disposed on or adjacent to the nanostructure so as to operatively effect the electrical properties of the nanostructure. The nanoparticles may be composed of metals, metal oxides or salts and nanoparticles composed of different materials may be present. The amount of nanoparticles may be controlled to preserve semiconductive properties of the nanostructure, and the substrate immediately adjacent to the nanostructure may remain substantially free of nanoparticles. A method for fabricating the device includes electrodeposition of the nanoparticles using one of more solutions of dissolved ions while providing an electric current to the nanostructures but not to the surrounding substrate. | 04-23-2009 |
20090165533 | SENSOR DEVICE WITH HEATED NANOSTRUCTURE - A nanostructure sensing device includes a substrate, a nanotube disposed over the substrate, and at least two conductive elements electrically connected to the nanotube. A electric current on the order of about 10 μA, or greater, is passed through the conductive elements and the nanotube. As a result, the nanotube heats up relative to the substrate. In the alternative, some other method may be used to heat the nanotube. When operated as a sensor with a heated nanotube, the sensor's response and/or recovery time may be markedly improved. | 07-02-2009 |
20100085067 | ANESTHESIA MONITOR, CAPACITANCE NANOSENSORS AND DYNAMIC SENSOR SAMPLING METHOD - Embodiments of nanoelectronic sensors are described, including sensors for detecting analytes such as anesthesia gases, CO2 and the like in human breath. An integrated monitor system and disposable sensor unit is described which permits a number of different anesthetic agents to be identified and monitored, as well as concurrent monitoring of other breath species, such as CO2. The sensor unit may be configured to be compact, light weight, and inexpensive. Wireless embodiments provide such enhancements as remote monitoring. A simulator system for modeling the contents and conditions of human inhalation and exhalation with a selected mixture of a treatment agent is also described, particularly suited to the testing of sensors to be used in airway sampling. | 04-08-2010 |
20100137731 | NANOELECTRONIC CAPNOMETER ADAPTER INCLUDING A NANOELECTRONIC SENSOR SELECTIVELY SENSITIVE TO AT LEAST ONE GASEOUS CONSITUTENT OF EXHALED BREATH - A capnometer adaptor includes a nanostructure sensor configured to selectively respond to a gaseous constituent of exhaled breath, such as to carbon dioxide. In certain embodiments, the adaptor includes an airway adaptor having at least one channel configured for the passage of respiratory gas; at least one nanostructure sensor in fluid communication with the passage, the sensor configured to selectively respond to at least one gaseous constituent of exhaled breath comprising carbon dioxide; and electronic hardware connected to the nanostructure sensor and configured to provide a signal indicative of a response of the sensor to the at least one gaseous constituent of exhaled breath. The sensor may be provided as a compact and solid-state device, and may be adapted for a variety of respiratory monitoring applications. | 06-03-2010 |