Abstract: The present disclosure provides taste-modifying polypeptides and methods of producing the same. In some cases, the taste-modifying polypeptides may be produced recombinantly. In some cases, the taste-modifying polypeptides comprise a miraculin protein or a brazzein protein. The taste-modifying polypeptides may be provided in various formulations for human consumption.

Abstract: Embodiments of the present invention provide a method, system and computer program product for heuristically generated suggestions in static code analysis. In an embodiment of the invention, a method for heuristically suggesting an asset transition in a code analysis tool can include receiving from an end user a request to select an asset of a computer program subject to static code analysis by a code analysis tool and selecting in response and contemporaneously to the request, an asset from amongst many assets during static code analysis of a computer program in a code analysis tool. The method further can include determining a set of assets amongst the many assets historically selected by other users of the code analysis tool during static code analysis subsequent to a selection of the contemporaneously selected asset.

Abstract: A method for generating plasma for removing an edge polymer from a substrate is provided. The method includes providing a powered electrode assembly, which includes a powered electrode, a dielectric layer, and a wire mesh disposed between the powered electrode and the dielectric layer. The method also includes providing a grounded electrode assembly disposed opposite the powered electrode assembly to form a cavity wherein the plasma is generated. The wire mesh is shielded from the plasma by the dielectric layer when the plasma is present in the cavity, which has an outlet at one end for providing the plasma to remove the edge polymer. The method further includes introducing at least one inert gas and at least one process gas into the cavity. The method yet also includes applying an RF field to the cavity using the powered electrode to generate the plasma from the inert gas and process gas.

Abstract: Methods for cleaning an edge of a semiconductor substrate include providing a brush in a housing, the housing provides a volume for holding the brush. A cleaning fluid is inserted into the housing to at least partially fill the volume holding the brush, with the cleaning fluid. The cleaning fluid is removed from the volume of the housing while the cleaning fluid is being inserted. The brush is rotated within the housing while the cleaning fluid is inserted and removed. The edge of the semiconductor substrate is inserted into a slot of the housing. The edge of the semiconductor substrate inserted into the slot is maintained at a distance and for a period of time. The distance is configured such that the brush contacts the edge of the semiconductor substrate but continues to enable rotation of the brush within the housing.

Abstract: An apparatus, system and method for cleaning a substrate edge include a bristle brush unit that cleans bevel polymers deposited on substrate edges using frictional contact in the presence of cleaning chemistry. The bristle brush unit is made up of a plurality of outwardly extending vanes and is mounted on a rotating shaft. An abrasive material is distributed throughout and within the outwardly extending vanes of the bristle brush unit to provide the frictional contact. The bristle brush unit cleans the edge of the substrate by allowing frictional contact of the plurality of abrasive particles with the edge of the substrate in the presence of fluids, such as cleaning chemistry, to cut, rip and tear the bevel polymer from the edge of the substrate.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise amorphane.

Abstract: Embodiments of the present invention provide a method, system and computer program product for heuristically generated suggestions in static code analysis. In an embodiment of the invention, a method for heuristically suggesting an asset transition in a code analysis tool can include receiving from an end user a request to select an asset of a computer program subject to static code analysis by a code analysis tool and selecting in response and contemporaneously to the request, an asset from amongst many assets during static code analysis of a computer program in a code analysis tool. The method further can include determining a set of assets amongst the many assets historically selected by other users of the code analysis tool during static code analysis subsequent to a selection of the contemporaneously selected asset.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise a C10 bicyclic isoprenoid such as carane, pinane, sabinane or a combination thereof.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise limonane.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise a C10 bicyclic isoprenoid such as carane, pinane, sabinane or a combination thereof.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise limonane.

Abstract: A fuel composition comprises at least a tetramethylcyclohexane and a fuel component. The tetramethylcyclohexane can be used as a fuel component or as a fuel additive in the fuel composition. The fuel composition may further comprise a conventional fuel component selected from a petroleum-based fuel component such as diesel fuel, jet fuel, kerosene or gasoline; or a coal-based fuel component. Methods of making and using the fuel composition are also disclosed.

Abstract: An apparatus, system and method for cleaning a substrate edge include a composite applicator that cleans bevel polymers deposited on wafer edges using frictional contact in the presence of fluids. The composite applicator includes a support material and a plurality of abrasive particles distributed within and throughout the support material. The composite applicator cleans the edge of the wafer by allowing frictional contact of the plurality of abrasive particles with the edge of the wafer in the presence of fluids, such as liquid chemicals, to cut, rip and tear the bevel polymer from the edge of the wafer.

Abstract: A method for generating plasma for removing an edge polymer from a substrate is provided. The method includes providing a powered electrode assembly, which includes a powered electrode, a dielectric layer, and a wire mesh disposed between the powered electrode and the dielectric layer. The method also includes providing a grounded electrode assembly disposed opposite the powered electrode assembly to form a cavity wherein the plasma is generated. The wire mesh is shielded from the plasma by the dielectric layer when the plasma is present in the cavity, which has an outlet at one end for providing the plasma to remove the edge polymer. The method further includes introducing at least one inert gas and at least one process gas into the cavity. The method yet also includes applying an RF field to the cavity using the powered electrode to generate the plasma from the inert gas and process gas.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise amorphane.

Abstract: An apparatus generating a plasma for removing an edge polymer from a substrate is disclosed. The embodiment includes a powered electrode assembly, including a powered electrode, a first dielectric layer, and a first wire mesh disposed between the powered electrode and the first dielectric layer. The embodiment also includes a grounded electrode assembly disposed opposite the powered electrode assembly so as to form a cavity wherein the plasma is generated, the first wire mesh being shielded from the plasma by the first dielectric layer when the plasma is present in the cavity, the cavity having an outlet at one end for providing the plasma to remove the edge polymer.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise amorphane.

Abstract: Provided herein are, among other things, jet fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions comprise at least a fuel component readily and efficiently produced, at least in part, from a microorganism. In certain embodiments, the fuel compositions provided herein comprise a high concentration of at least a bioengineered fuel component. In further embodiments, the fuel compositions provided herein comprise amorphane.

Abstract: Provided herein are, among other things, fuel compositions and methods of making and using the same. In some embodiments, the fuel compositions provided herein comprise a mixture of limonane and farnesane. In other embodiments, the fuel compositions provided herein comprise a mixture of limonene, farnesane, p-cymene and a petroleum-based fuel or a Fischer-Tropsch-based fuel. In still other embodiments, the fuel compositions provided herein comprise a mixture of limonene, farnesane, p-cymene, a petroleum-based fuel or a Fischer-Tropsch-based fuel and a fuel additive.

Abstract: A fuel composition comprises at least a tetramethylcyclohexane having a quaternary carbon atom in the cyclohexane ring and optionally, a fuel component. The tetramethylcyclohexane can be used as a fuel component or as a fuel additive in the fuel composition. The fuel composition may further comprise a conventional fuel component selected from a diesel fuel, jet fuel, kerosene or gasoline. Methods of making and using the fuel composition are also disclosed.