Ramsbottom
James Ramsbottom, Mississauga CA
Patent application number | Description | Published |
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20080200704 | PREPARATION OF AMINO ACID-FATTY ACID AMIDES - The present invention describes compounds produced from an amino acid molecule and a fatty acid molecule. The compounds being in the form of amino-fatty acid compounds being bound by an amide linkage, or mixtures thereof made by reacting amino acids or derivatives thereof with an appropriate fatty acid previously reacted with a thionyl halide. The administration of such molecules provides supplemental amino acids with enhanced bioavailability and the additional benefits conferred by the specific fatty acid. | 08-21-2008 |
20080200705 | CREATINE-FATTY ACIDS - The present invention describes compounds produced from a creatine molecule and a fatty acid molecule. The compounds being in the form of creatine-fatty compounds bound by an amide linkage, or mixtures thereof produced by reacting creatine or derivatives thereof with an appropriate fatty acid in the presence of dichloromethane and a pyridine catalyst, previously reacted with a thionyl halide. The administration of such molecules provides supplemental creatine with enhanced bioavailability and the additional benefits conferred by the specific fatty acid. | 08-21-2008 |
20080200723 | CREATINE-FATTY ACIDS - The present invention describes compounds produced from a creatine molecule and a fatty acid molecule. The compounds being in the form of creatine-fatty acid compounds being bound by an anhydride linkage, or mixtures thereof made by reacting creatine or derivatives thereof with an appropriate fatty acid previously reacted with a thionyl halide. The administration of such molecules provides supplemental creatine with enhanced bioavailability and the additional benefits conferred by the specific fatty acid. | 08-21-2008 |
James D. Ramsbottom, Mississauga CA
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20090142410 | Nutritional composition and method for increasing creatine uptake and retention in skeletal muscle, increasing muscle mass and strength, increasing exercise capacity and for aiding recovery following exercise - The present invention relates to the composition of a dietary supplement provided for increasing Creatine uptake and retention in skeletal muscle, increasing muscle mass and strength, increasing exercise capacity and aiding in recovery following exercise as well as supporting the immune system during periods of intense training. A method for achieving the same is also provided. The present invention comprises at least Creatine or derivatives thereof, Taurine or derivatives thereof and a source of Phosphate. The dietary supplement may further comprise one or more of the following: Double Fermented | 06-04-2009 |
Mark Ramsbottom, Millhead GB
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20120011835 | FUEL FIRED BURNER FOR VEHICLE EXHAUST COMPONENT - A fuel fired burner defines an axially extending flow path. An airless fuel nozzle sprays fuel droplets within the fuel fired burner in a direction generally along the axially extending flow path. An exhaust gas inlet directs exhaust gases from a vehicle exhaust system toward the airless nozzle in a direction that is transverse to the axially extending flow path. The exhaust gas mixes with the fuel droplets resulting in an exhaust gas/fuel mixture. | 01-19-2012 |
20120073268 | FUEL-FIRED BURNER FOR NO2 BASED REGENERATION - A fuel-fired burner in a vehicle exhaust system is selectively activated to increase exhaust gas temperature to a desired reference temperature. The fuel-fired burner can be either a partial range burner or a full range burner. A control strategy activates the fuel-fired burner only when needed to provide NO | 03-29-2012 |
Robert Ramsbottom, Simpsonville, SC US
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20130314845 | Method of Improving Electromechanical Integrity of Cathode Coating to Cathode Termination Interfaces in Solid Electrolytic Capacitors - A solid electrolytic capacitor is described which comprises an anode, a dielectric on the anode and a cathode on the dielectric. A conductive coating is on the cathode wherein the conductive layer comprises an exterior surface of a first high melting point metal. An adjacent layer is provided comprising a second high melting point metal, wherein the first high melting point metal and the second high melting point metal are metallurgically bonded with a low melting point metal. | 11-28-2013 |