Epoxides and hydroperoxide compounds having antifungal activities derived from the oxidation linalyl acetate, a major component of lavender oil, are disclosed. Also, disclosed are pharmaceutical composition and methods of treating and protecting a subject from fungal infection.

Epoxides and hydroperoxide compounds having antifungal activities derived from the oxidation linalyl acetate, a major component of lavender oil, are disclosed. Also, disclosed are pharmaceutical composition and methods of treating and protecting a subject from fungal infection.

Epoxides and hydroperoxide compounds having antifungal activities derived from the oxidation linalyl acetate, a major component of lavender oil, are disclosed. Also, disclosed are pharmaceutical composition and methods of treating and protecting a subject from fungal infection.

Epoxides and hydroperoxide compounds having antifungal activities derived from the oxidation linalyl acetate, a major component of lavender oil, are disclosed. Also, disclosed are pharmaceutical composition and methods of treating and protecting a subject from fungal infection.

The present invention provides a method of making carboxylic acids from levulinic acid, such as succinic acid and 3-hydroxypropanoic acid, by reacting levulinic acid with an oxidant such as hydrogen peroxide under acidic or basic conditions.

The present invention provides a method of making carboxylic acids from levulinic acid, such as succinic acid and 3-hydroxypropanoic acid, by reacting levulinic acid with an oxidant such as hydrogen peroxide under acidic or basic conditions.

Methods and systems for converting hydrocarbons including exposing a portion of a hydroperoxide-containing feed including tert-butyl hydroperoxide to a solid deperoxidation catalyst under decomposition conditions to form an oxidation effluent comprising tert-butyl alcohol, wherein the solid deperoxidation catalyst comprises a manganese oxide octahedral molecular sieve, are provided herein. Further methods and systems for converting the oxidation effluent to an alkylation product are also provided herein.

Methods and systems for converting hydrocarbons including exposing a portion of a hydroperoxide-containing feed including tert-butyl hydroperoxide to a solid deperoxidation catalyst under decomposition conditions to form an oxidation effluent comprising tert-butyl alcohol, wherein the solid deperoxidation catalyst comprises a manganese oxide octahedral molecular sieve, are provided herein. Further methods and systems for converting the oxidation effluent to an alkylation product are also provided herein.

Systems and methods are provided for production of high octane hydrocarbon from an isoparaffin feed using oxidation acid catalysis chemistry.

Systems and methods are provided for production of high octane hydrocarbon from an isoparaffin feed using oxidation acid catalysis chemistry.