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Fotheringham
Edeline Fotheringham, San Diego, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20120076160 | CONTINUOUS WAVELENGTH TUNABLE LASER SOURCE WITH OPTIMUM ORIENTATION OF GRATING AND GAIN MEDIUM - An external cavity laser assembly ( | 03-29-2012 |
Ian Fotheringham, Edinburgh GB
| Patent application number | Description | Published |
|---|---|---|
| 20080213845 | Method to increase the yield and improve purification of products from transaminase reactions - A process for producing high yields of enantioselective amino acids and chiral amines by reacting a keto acid or ketone and an amino acid donor in the presence of a transaminase biocatalyst to produce a keto acid by-product and an amino acid or amine product. Further reacting the keto acid by-product with a peroxide to increase the yield of additional amino acid or amine product. | 09-04-2008 |
| 20090029401 | Method for detecting biofuel producing microbes - A method for detecting biofuel producing microbes in a colorimetric assay by providing a microbe, a feedstock, and an assay solution. The assay solution contains an alcohol oxidase, a peroxidase, and a peroxidase co-substrate. The microbe is cultured with the feedstock as part of a culture medium that produces a detectable amount of bioalcohol. The culture medium is contacted with the assay solution to produce a colorimetric reaction to screen for a biofuel producing microbe. | 01-29-2009 |
| 20090298134 | Method to increase the yield and improve purification of products from transaminase reactions - A process for producing high yields of enantioselective amino acids and chiral amines by reacting a keto acid or ketone and an amino acid donor in the presence of a transaminase biocatalyst to produce a keto acid by-product and an amino acid or amine product. Further reacting the keto acid by-product with a peroxide to increase the yield of additional amino acid or amine product. | 12-03-2009 |
Ian Fotheringham, Lothian GB
| Patent application number | Description | Published |
|---|---|---|
| 20090203091 | MUTANTS FOR THE PREPARATION OF D-AMINO ACIDS - The present invention relates to specific | 08-13-2009 |
Ian Fotheringham, Schaumburg, IL US
| Patent application number | Description | Published |
|---|---|---|
| 20110212458 | Methods for Production of Xylitol in Microorganisms - The invention provides biosynthetic routes to xylitol production that do not require pure | 09-01-2011 |
Susan Fotheringham, North Lanarkshire GB
| Patent application number | Description | Published |
|---|---|---|
| 20090311244 | Screening Method - This invention relates to a novel screening method that identifies simple molecular markers that are predictive of whether a particular disease condition is responsive to a specific treatment. Also, a method of diagnosing the susceptibility of an individual suffering from a disease to treatment with an HDAC inhibitor is provided. Also provided is a method of treating a proliferative disease or a condition which involves a change in cell differentiation or growth rate in a patient. | 12-17-2009 |
Ulrich Fotheringham, Wiesbaden DE
| Patent application number | Description | Published |
|---|---|---|
| 20090217516 | Method for Producing Optoelectronic Components, and Products Produced Thereby - The invention relates to the production of optoelectronic components, optical components being mounted in the composite wafer. Provided to this end is a method for producing optoelectronic components, in particular image signal acquiring or image signal outputting components, in the case of which optical components are respectively provided, picked up and mounted on a wafer, the optical components preferably respectively being positioned individually or in groups relative to the position of assigned optoelectronic or optical components of the wafer or of a wafer to be connected thereto. | 09-03-2009 |
| 20100022053 | Method for Packaging Components - The invention relates to a method for the manufacture of packaged components. The invention is based here on the problem of facilitating the application of covers with lateral dimensions that are smaller than the lateral dimensions of the functional substrate. For this purpose, a plate-like cover substrate is mounted on a carrier substrate. Then, on the uncovered side of the plate-like cover substrate, trenches are inserted, so that a composite part is obtained with the carrier substrate and individual covering parts that are separated from each other by the trenches, but interconnected by the carrier substrate. The covering parts of the composite part are connected with a functional substrate with a plurality of components. Then, the connection of the covering parts is dissolved with the carrier substrate, and the carrier substrate is removed, so that a composite is obtained with the functional substrate and a plurality of covering parts that cover functional areas. | 01-28-2010 |
| 20100212742 | PHOTOVOLTAIC DEVICE WITH CONCENTRATOR OPTICS - The invention relates to a photovoltaic device having a concentrator optics. The photovoltaic device includes at least one solar cell and a concentrator optics, with the concentrator optics having at least one first, light-input-side, focusing optical element and at least one second optical element downstream of the first, light-input-side optical element and upstream of the solar cell, onto which, in operating position of the photovoltaic device, the bundled solar radiation falls by way of the first optical element, with the second optical element having a solarization-stabilized silicate glass. | 08-26-2010 |
William R. Fotheringham, Everett, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20100326421 | FIREPLACE ASSEMBLY WITH INTEGRATED BURN CONTROL SYSTEM - A fireplace assembly with an integrated burn control system includes a variety of features that provide an elegant, revolutionary, and highly-efficient way to heat a residence or other environment. The fireplace assembly may be used in combination with gas-burning fireplaces, stoves, and fireplace inserts. The fireplace assembly includes, but is not limited to: a control panel; a concealment door that conceals the control panel when the concealment door is closed; automatic control panel lighting that is activated when the concealment door is open; a split flow or dual burner assembly that simulates a natural wood burning fire; and an intermittent pilot ignition system that allows a pilot flame to run continuously or intermittently. The fireplace assembly can be manually controlled via the control panel or automatically and/or remotely controlled via a remote control device. | 12-30-2010 |