Wildgoose
Gregory G. Wildgoose, Sunnyvale, CA US
Patent application number | Description | Published |
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20120067745 | DEVICE FOR PROVIDING A MEANS FOR INTERNAL CALIBRATION IN AN ELECTROCHEMICAL SENSOR - Internally calibrated pH and other analyte sensors based on redox agents provide more accurate results when the redox active reference agent is in a constant chemical environment, yet separated from the solution being analyzed in such a way as to maintain electrical contact with the sample. Room temperature ionic liquids (RTIL) can be used to achieve these results when used as a salt bridge between the reference material and the sample being analyzed. The RTIL provides the constant chemical environment and ionic strength for the redox active material (RAM) and provides an electrolytic layer that limits or eliminates direct chemical interaction with the sample. A broad range of RAMs can be employed in a variety of configurations in such “Analyte Insensitive Electrode” devices. | 03-22-2012 |
20120090995 | DEVICE FOR DETECTING AN ANALYTE - Devices for detecting an analyte comprising a redox active analyte sensitive material on a working electrode and computer assisted signal acquisition and processing. | 04-19-2012 |
Gregory G. Wildgoose, Oxford GB
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20150198553 | DEVICE FOR PROVIDING A MEANS FOR INTERNAL CALIBRATION IN AN ELECTROCHEMICAL SENSOR - Internally calibrated pH and other analyte sensors based on redox agents provide more accurate results when the redox active reference agent is in a constant chemical environment, yet separated from the solution being analyzed in such a way as to maintain electrical contact with the sample. Room temperature ionic liquids (RTIL) can be used to achieve these results when used as a salt bridge between the reference material and the sample being analyzed. The RTIL provides the constant chemical environment and ionic strength for the redox active material (RAM) and provides an electrolytic layer that limits or eliminates direct chemical interaction with the sample. A broad range of RAMs can be employed in a variety of configurations in such “Analyte Insensitive Electrode” devices. | 07-16-2015 |
Gregory George Wildgoose, Norwich GB
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20120168308 | ELECTROCHEMICAL SENSORS - An electrode for use in a electrochemical sensor comprises carbon modified with a chemically sensitive redox-active compound, excluding an electrode based on carbon having derivatised thereron two redox-active species wherein at least one of said species is selected from anthraquinone, phenanthrenequinone and N,N′-diphenyl-p-phenylenediamine (DPPD). The invention further provides a pH sensor comprising: | 07-05-2012 |
20140083853 | ELECTROCHEMICAL SENSORS - An electrode for use in a electrochemical sensor comprises carbon modified with a chemically sensitive redox-active compound, excluding an electrode based on carbon having derivatised thereron two redox-active species wherein at least one of said species is selected from anthraquinone, phenanthrenequinone and N,N′-diphenyl-p-phenylenediamine (DPPD). The invention further provides a pH sensor comprising: | 03-27-2014 |
Jason Wildgoose, Stockport GB
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20090302209 | MASS SPECTROMETER - An ion guide or mass analyser ( | 12-10-2009 |
20140054454 | Electrostatic Gimbal for Correction of Errors in Time of Flight Mass Spectrometers - A Time of Flight mass analyser is disclosed comprising one or more devices arranged and adapted to correct for tilt in an isochronous plane of ions and to adjust the isochronous plane of the ions so as to be parallel with the plane of detection in an ion detector. | 02-27-2014 |
Jason Lee Wildgoose, Heaton Mersey GB
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20130168546 | Method of Mass Spectrometry and Mass Spectrometer Using Peak Deconvolution - A method of mass spectrometry is disclosed wherein a signal output from an ion detector is digitised by an Analogue to Digital Converter and is then deconvoluted to determine one or more ion arrival times and one more ion arrival intensities. The process of deconvoluting the ion signal involves determining a point spread function characteristic of an ion arriving at and being detected by the ion detector. A distribution of ion arrival times which produces a best fit to the digitised signal is then determined given that each ion arrival is assumed to produce a response given by the point spread function. A plurality of ion arrival times are then combined to produce a composite ion arrival time-intensity spectrum. | 07-04-2013 |
Stephen Wildgoose, Ulverston, Cumbria GB
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20100011951 | Gun recoil - A gun comprising: a generally tubular barrel defining a barrel axis and having an external barrel surface about the perimeter of the tubular barrel a cradle having a cradle bore for accommodating a section of the barrel wherein the barrel is slidably mounted in the cradle bore such that the barrel can move relative to the cradle along the barrel axis across a range of barrel positions and wherein an interface defined by the slidable contact between external barrel surface and the cradle bore—i) prevents rotation of the barrel relative to the cradle about the barrel axis; and ii) is maintained at a single section of the cradle over the entire range of barrel positions. | 01-21-2010 |