Abstract: High temperature antioxidant additives and methods for improving a liquid fuel composition's thermal oxidative stability are disclosed. Also provided are liquid fuel compositions including a liquid fuel and the high temperature antioxidant additives. The high temperature antioxidant additive may include an alkylpiperidin-1-yl alkylcarbamate.

Abstract: GDI deposit fluidizing additives, liquid fuel compositions including such additives and methods that improve a liquid fuel composition's GDI performance are provided. A liquid fuel composition may include a major amount of a base gasoline fuel; and 1 to 500 ppm of one or more polyether monohydroxy compounds, with the proviso that the liquid fuel composition is essentially free of fuel detergent additives. The liquid fuel composition provides at least 10% lower particulate emission as a function of time relative to a comparable liquid fuel composition not including the one or more polyether monohydroxy compounds. The GDI deposit fluidizing enhancing additive may include polyether monohydroxy compounds with the butane oxide and propene oxide in a variety of ratios and randomly distributed in the additive.

Abstract: High temperature antioxidant additives and methods that improve a liquid fuel composition's thermal oxidative stability are disclosed. A liquid fuel composition may comprise a liquid fuel and a high temperature antioxidant additive. The high temperature antioxidant additive may comprise an indoline compound with a bicyclic ring structure, wherein the indoline compound comprises a six-membered aromatic ring and a five-membered aliphatic ring that share a carbon-carbon aromatic bond. The five-membered aliphatic ring may be heterocyclic and may comprise a nitrogen positioned in an alpha position to the six-membered aromatic ring.

Abstract: High temperature antioxidant additives and methods that improve a liquid fuel composition's thermal oxidative stability are disclosed. A liquid fuel composition may comprise a liquid fuel and a high temperature antioxidant additive. The high temperature antioxidant additive may comprise an indoline compound with a bicyclic ring structure, wherein the indoline compound comprises a six-membered aromatic ring and a five-membered aliphatic ring that share a carbon-carbon aromatic bond. The five-membered aliphatic ring may be heterocyclic and may comprise a nitrogen positioned in an alpha position to the six-membered aromatic ring.

Abstract: High temperature antioxidant additives and methods that improve a liquid fuel composition's thermal oxidative stability are disclosed. A liquid fuel composition may comprise a liquid fuel; and a high temperature antioxidant additive comprising a nitroxide radical having a formula: wherein R1, R2, R3, and R4 are individually selected from an alkyl group or a hetero atom substituted alkyl group, and wherein R5 and R6 are any atom or group except hydrogen which can bond covalently to carbon.

Abstract: High temperature antioxidant additives and methods that improve a liquid fuel composition's thermal oxidative stability are disclosed. A liquid fuel composition may comprise a liquid fuel; and a high temperature antioxidant additive comprising a nitroxide radical having a formula: wherein R1, R2, R3, and R4 are individually selected from an alkyl group or a hetero atom substituted alkyl group, and wherein R5 and R6 are any atom or group except hydrogen which can bond covalently to carbon.

Abstract: This invention relates generally to nucleic acid-based diagnostic assays for detecting, identifying and/or quantitating target sequences in a sample. More specifically, the invention utilizes sequential cleavage of nucleic acids to achieve target and signal amplification through cycling reactions.

Abstract: The present invention relates to a method, kit and reagent composition for determining the presence of a target nucleic acid in a sample using a two-stage target cycling reaction. During stage 1 of the reaction, the target nucleic acid hybridizes with a probe nucleic acid to effectuate release of an activator into the assay medium. During stage 2 of the reaction, a target analog-anchor complex is cleaved by the activator, which accomplishes the dual purpose of releasing the target analog into the assay medium, and the initiation of signal generation. The released target analog then restarts the cyclic reaction by binding to a second probe, which effectuates release of a second activator, and so on. This cyclic reaction gives rise to an increase in the amount of signal generated from a single target nucleic acid molecule in the sample, which greatly enhances the level of target detection that can be expected.

Abstract: The present invention relates to a method, kit and reagent composition for determining the presence of a target nucleic acid in a sample using a two-stage target cycling reaction. During stage 1 of the reaction, the target nucleic acid hybridizes with a probe nucleic acid to effectuate release of an activator into the assay medium. During stage 2 of the reaction, a target analog-anchor complex is cleaved by the activator, which accomplishes the dual purpose of releasing the target analog into the assay medium, and the initiation of signal generation. The released target analog then restarts the cyclic reaction by binding to a second probe, which effectuates release of a second activator, and so on. This cyclic reaction gives rise to an increase in the amount of signal generated from a single target nucleic acid molecule in the sample, which greatly enhances the level of target detection that can be expected.