Methods are provided for synthesizing the grape mealybug pheromone, trans--necrodyl isobutyrate, starting with essential plant oils that contain trans--necrodyl acetate. The synthesis method, in two steps, converts the trans--necrodyl acetate to trans--necrodol and then converts the trans--necrodol to the desired trans--necrodyl isobutyrate. The first step can be achieved by either of a hydrolysis reaction or a reduction reaction. In the hydrolysis reaction, the essential oil is mixed in an alcohol solvent with a hydroxide base, or by mixing the essential oil in an aqueous acid. A reduction reaction can instead by performed in an organic solvent in the presence of a reducing agent. The trans--necrodol is converted to the desired trans--necrodyl isobutyrate by an esterification reaction with a carboxylic acid, an acyl halide, or an acid anhydride.

The present disclosure relates to the formation of terephthalate esters. The present invention also relates to the depolymerization of polyethylene terephthalate (PET) or poly(ethylene glycol-co-1,4-cyclohexanedimethanol terephthalate) and the recovery of terephthalate esters

The present disclosure relates to the formation of terephthalate esters. The present invention also relates to the depolymerization of polyethylene terephthalate (PET) or poly(ethylene glycol-co-1,4-cyclohexanedimethanol terephthalate) and the recovery of terephthalate esters

Provided are methods including a method for industrially producing (2S,12Z)-2-acetoxy-12-heptadecene, which is, for example, a sex pheromone of pistachio twig borer. The methods can include a production method comprising a step of reacting racemic (2RS,12Z)-2-hydroxy-12-heptadecene with vinyl benzoate in the presence of a lipase to obtain a mixture of optically active (2R,12Z)-2-benzoyloxy-12-heptadecene of Formula (R,Z-2) and optically active (2S,12Z)-2-hydroxy-12-heptadecene of Formula (S,Z-1), a step of heating the mixture to distill out the optically active (2S,12Z)-2-hydroxy-12-heptadecene (S,Z-1), and a step of acetylating the optically active (2S,12Z)-2-hydroxy-12-heptadecene (S,Z-1) to obtain optically active (2S,12Z)-2-acetoxy-12-heptadecene of Formula (S,Z-3). ##STR00001##

Provided are methods including a method for industrially producing (2S,12Z)-2-acetoxy-12-heptadecene, which is, for example, a sex pheromone of pistachio twig borer. The methods can include a production method comprising a step of reacting racemic (2RS,12Z)-2-hydroxy-12-heptadecene with vinyl benzoate in the presence of a lipase to obtain a mixture of optically active (2R,12Z)-2-benzoyloxy-12-heptadecene of Formula (R,Z-2) and optically active (2S,12Z)-2-hydroxy-12-heptadecene of Formula (S,Z-1), a step of heating the mixture to distill out the optically active (2S,12Z)-2-hydroxy-12-heptadecene (S,Z-1), and a step of acetylating the optically active (2S,12Z)-2-hydroxy-12-heptadecene (S,Z-1) to obtain optically active (2S,12Z)-2-acetoxy-12-heptadecene of Formula (S,Z-3). ##STR00001##

The present disclosure relates to the formation of terephthalate esters. The present invention also relates to the depolymerization of polyethylene terephthalate (PET) or poly(ethylene glycol-co-1,4-cyclohexanedimethanol terephthalate) and the recovery of terephthalate esters.

A novel method for production of hydroxamic acid derivative using a compound represented by the formula [12] as an intermediate, and intermediate therefor.

##STR00001## wherein R.sup.1 represents a methyl group or the like; R.sup.2 represents a methyl group or the like; and R.sup.5 represents a hydrogen atom or the like.

A novel method for production of hydroxamic acid derivative using a compound represented by the formula [12] as an intermediate, and intermediate therefor.

##STR00001## wherein R.sup.1 represents a methyl group or the like; R.sup.2 represents a methyl group or the like; and R.sup.5 represents a hydrogen atom or the like.

Provided are processes and products of manufacture that provide a green solution to the hydrolysis of C8/C10 methyl ester to fatty acids. Provided are reactive distillation processes for producing an aliphatic acid and an alcohol as hydrolysis products. Provided are processes and products of manufacture encompassing the hydrolysis of fatty acid alkyl esters to an aliphatic acid and an alcohol by a reactive distillation process. Provided are processes and products of manufacture useful for equilibrium-limited reactions and for the separation of azeotropic mixtures. Provided are reactive distillation products of manufacture and processes for alkyl alkanoate hydrolysis comprising a reaction column comprising a rectifying rectifying zone for further distillation, a reaction zone, and a stripping zone wherein products are separated from reaction mixtures, where a water stream and fatty acid alkyl ester stream can be fed into the reaction section.

Provided are processes and products of manufacture that provide a green solution to the hydrolysis of C8/C10 methyl ester to fatty acids. Provided are reactive distillation processes for producing an aliphatic acid and an alcohol as hydrolysis products. Provided are processes and products of manufacture encompassing the hydrolysis of fatty acid alkyl esters to an aliphatic acid and an alcohol by a reactive distillation process. Provided are processes and products of manufacture useful for equilibrium-limited reactions and for the separation of azeotropic mixtures. Provided are reactive distillation products of manufacture and processes for alkyl alkanoate hydrolysis comprising a reaction column comprising a rectifying rectifying zone for further distillation, a reaction zone, and a stripping zone wherein products are separated from reaction mixtures, where a water stream and fatty acid alkyl ester stream can be fed into the reaction section.