A method for producing an aromatic aminomethyl, comprising hydrogenating an aromatic nitrile in an organic solvent comprising a polar organic solvent having a solubility parameter (SP value) of 9 or more in the presence of a quaternary ammonium compound, at least one metal hydroxide selected from the group consisting of an alkali metal hydroxide and an alkaline earth metal hydroxide, and a hydrogenation catalyst.

The present invention provides an improved process for the preparation of halogenated benzylamine having the formula I from halogenated benzonitriles, Formula I wherein, X.sub.1 is selected from group consisting of hydrogen, chloro or fluoro, provided at least one X.sub.1 is chloro or fluoro.

##STR00001##

The present invention provides an improved process for the preparation of halogenated benzylamine having the formula I from halogenated benzonitriles, Formula I wherein, X.sub.1 is selected from group consisting of hydrogen, chloro or fluoro, provided at least one X.sub.1 is chloro or fluoro.

##STR00001##

The present invention provides an improved process for the preparation of halogenated benzylamine having the formula I from halogenated benzonitriles, Formula I wherein, X.sub.1 is selected from group consisting of hydrogen, chloro or fluoro, provided at least one X.sub.1 is chloro or fluoro.

##STR00001##

The present disclosure relates to a method for preparing isophorone diamine by means of a hydrogenation reduction of isophorone nitrile imine. The hydrogenation reduction is continuously carried out in a multi-stage bubble column reactor loaded with a supported alkaline cobalt-based catalyst, wherein isophorone nitrile imine is successively in countercurrent contact with hydrogen in each stage of the reactor to carry out a hydrogenation reduction reaction, so as to obtain the isophorone diamine. The preparation method solves the problem of back-mixing, and further improves the conversion rate and the cis/trans ratio of the product.

The present disclosure relates to a method for preparing isophorone diamine by means of a hydrogenation reduction of isophorone nitrile imine. The hydrogenation reduction is continuously carried out in a multi-stage bubble column reactor loaded with a supported alkaline cobalt-based catalyst, wherein isophorone nitrile imine is successively in countercurrent contact with hydrogen in each stage of the reactor to carry out a hydrogenation reduction reaction, so as to obtain the isophorone diamine. The preparation method solves the problem of back-mixing, and further improves the conversion rate and the cis/trans ratio of the product.

The present disclosure relates to a method for preparing isophorone diamine by means of a hydrogenation reduction of isophorone nitrile imine. The hydrogenation reduction is continuously carried out in a multi-stage bubble column reactor loaded with a supported alkaline cobalt-based catalyst, wherein isophorone nitrile imine is successively in countercurrent contact with hydrogen in each stage of the reactor to carry out a hydrogenation reduction reaction, so as to obtain the isophorone diamine. The preparation method solves the problem of back-mixing, and further improves the conversion rate and the cis/trans ratio of the product.

A pinene-derived diisocyanate compound, a process for forming a pinene-derived polyurethane, and an article of manufacture that includes the polyurethane are disclosed. The process for forming the polyurethane includes forming a pinene-derived diisocyanate compound, and reacting the pinene-derived diisocyanate compound with a polyol in a polymerization compound.

A pinene-derived diisocyanate compound, a process for forming a pinene-derived polyurethane, and an article of manufacture that includes the polyurethane are disclosed. The process for forming the polyurethane includes forming a pinene-derived diisocyanate compound, and reacting the pinene-derived diisocyanate compound with a polyol in a polymerization compound.

A pinene-derived diisocyanate compound, a process for forming a pinene-derived polyurethane, and an article of manufacture that includes the polyurethane are disclosed. The process for forming the polyurethane includes forming a pinene-derived diisocyanate compound, and reacting the pinene-derived diisocyanate compound with a polyol in a polymerization compound.