Dried and or decarboxylated cannabis containing a known composition of cannabinoids is blended with other dried or decarboxylated cannabis of a known composition of cannabinoids and or mixed with other extracts of, isolates of, cannabisor synthetic cannabinoids to achieve a prescribed amount of cannabinoids in the blend. Decarboxylated cannabis is preferentially produced using controlled thin layer decarboxylation. Precision decarboxylation is optionally used to produce a precise pair ratio of acidic to neutral cannabinoid, eg THCA to THC or CBDA to CBD. Further a prescribed or selected terpene profile is mixed and applied to the blend. Once mixed the plant material is suitable for ingestion without further treatment and is dosed appropriately.

The present invention provides a method for preparing a resveratrol compound, and belongs to the technical field of organic synthesis. In the present invention, first alkoxy-substituted benzyl halide, alkoxy-substituted benzaldehyde and a metal catalyst are subjected to oxidative addition and reduction elimination reactions to obtain alkoxy-substituted diphenylethanone; and then the alkoxy-substituted diphenylethanone and a metal catalyst are subjected to reduction, trans elimination and selective debenzylation reactions under a hydrogen atmosphere to obtain the resveratrol compound. In the preparation method of the present invention, the hydrogenation reduction, trans elimination and selective debenzylation reactions can be achieved just by a one-pot process, where the reaction directly obtains a trans olefin, thereby avoiding the formation of a isomer; and also the reaction selectively catalyzes debenzylation to eliminate Lewis acids from the source, and has the advantage of a high yield. Therefore, this process is a green and environmentally friendly process. The experimental results show that, the products obtained by the preparation method as provided by the present invention are all trans olefins, with the purity being up to more than 99.5%, and each yield being greater than 80%.

The present invention provides a method for preparing a resveratrol compound, and belongs to the technical field of organic synthesis. In the present invention, first alkoxy-substituted benzyl halide, alkoxy-substituted benzaldehyde and a metal catalyst are subjected to oxidative addition and reduction elimination reactions to obtain alkoxy-substituted diphenylethanone; and then the alkoxy-substituted diphenylethanone and a metal catalyst are subjected to reduction, trans elimination and selective debenzylation reactions under a hydrogen atmosphere to obtain the resveratrol compound. In the preparation method of the present invention, the hydrogenation reduction, trans elimination and selective debenzylation reactions can be achieved just by a one-pot process, where the reaction directly obtains a trans olefin, thereby avoiding the formation of a isomer; and also the reaction selectively catalyzes debenzylation to eliminate Lewis acids from the source, and has the advantage of a high yield. Therefore, this process is a green and environmentally friendly process. The experimental results show that, the products obtained by the preparation method as provided by the present invention are all trans olefins, with the purity being up to more than 99.5%, and each yield being greater than 80%.

The present application discloses methods for the efficient preparation of high purity compounds of the Formula I, and their methods of use.

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The present application discloses methods for the efficient preparation of high purity compounds of the Formula I, and their methods of use.

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In one aspect, the present disclosure provides methods of preparing a primary or secondary amine and hydroxylated aromatic compounds. In some embodiments, the aromatic compound may be unsubstituted, substituted, or contain one or more heteroatoms within the rings of the aromatic compound. The methods described herein may be carried out without the need for transition metal catalysts or harsh reaction conditions.

In one aspect, the present disclosure provides methods of preparing a primary or secondary amine and hydroxylated aromatic compounds. In some embodiments, the aromatic compound may be unsubstituted, substituted, or contain one or more heteroatoms within the rings of the aromatic compound. The methods described herein may be carried out without the need for transition metal catalysts or harsh reaction conditions.

The present invention relates to a process for the preparation of crisaborole of formula (I):

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by preparing intermediates of formulas (II) and (III):

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The present invention relates to a process for the preparation of crisaborole of formula (I):

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by preparing intermediates of formulas (II) and (III):

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The present invention relates to a process for the preparation of crisaborole of formula (I): ##STR00001## by preparing intermediates of formulas (II) and (III): ##STR00002##