Methods of forming arenes, including asymmetrical arenes, such as asymmetrical pyrene derivatives. Substituents of starting materials may be selected to direct a photochemical cascade and possibly a 1,2-aryl shift. The methods may include a Mallory cyclization, which is controlled, at least in part, by substituents of the starting materials. Compounds and compositions including asymmetrical arenes.

Methods of forming arenes, including asymmetrical arenes, such as asymmetrical pyrene derivatives. Substituents of starting materials may be selected to direct a photochemical cascade and possibly a 1,2-aryl shift. The methods may include a Mallory cyclization, which is controlled, at least in part, by substituents of the starting materials. Compounds and compositions including asymmetrical arenes.

Methods of forming arenes, including asymmetrical arenes, such as asymmetrical pyrene derivatives. Substituents of starting materials may be selected to direct a photochemical cascade and possibly a 1,2-aryl shift. The methods may include a Mallory cyclization, which is controlled, at least in part, by substituents of the starting materials. Compounds and compositions including asymmetrical arenes.

Methods of forming arenes, including asymmetrical arenes, such as asymmetrical pyrene derivatives. Substituents of starting materials may be selected to direct a photochemical cascade and possibly a 1,2-aryl shift. The methods may include a Mallory cyclization, which is controlled, at least in part, by substituents of the starting materials. Compounds and compositions including asymmetrical arenes.

The present disclosure relates to a method including subjecting an organic stream comprising at least one oxygenate to hydrotreatment, whereby a hydrotreatment product comprising ethylbenzene is produced, wherein the organic stream is a product of a process for the production of propylene oxide; and separating an ethylbenzene product stream from the hydrotreatment product, to yield a residual stream.

The present disclosure relates to a method including subjecting an organic stream comprising at least one oxygenate to hydrotreatment, whereby a hydrotreatment product comprising ethylbenzene is produced, wherein the organic stream is a product of a process for the production of propylene oxide; and separating an ethylbenzene product stream from the hydrotreatment product, to yield a residual stream.

The present disclosure relates to a method including subjecting an organic stream comprising at least one oxygenate to hydrotreatment, whereby a hydrotreatment product comprising ethylbenzene is produced, wherein the organic stream is a product of a process for the production of propylene oxide; and separating an ethylbenzene product stream from the hydrotreatment product, to yield a residual stream.

The present disclosure relates to a method including subjecting an organic stream comprising at least one oxygenate to hydrotreatment, whereby a hydrotreatment product comprising ethylbenzene is produced, wherein the organic stream is a product of a process for the production of propylene oxide; and separating an ethylbenzene product stream from the hydrotreatment product, to yield a residual stream.