Process for preparing biphenyl-2,2′-diols.

The present disclosure provides methods for selectively crystallizing cannabinoids from solutions containing a plurality of cannabinoids. The present disclosure further provides methods for separating a crystallized cannabinoid from a mixture of cannabinoids.

The present disclosure provides methods for selectively crystallizing cannabinoids from solutions containing a plurality of cannabinoids. The present disclosure further provides methods for separating a crystallized cannabinoid from a mixture of cannabinoids.

The present disclosure provides methods for selectively crystallizing cannabinoids from solutions containing a plurality of cannabinoids. The present disclosure further provides methods for separating a crystallized cannabinoid from a mixture of cannabinoids.

Cannabis plant material is extracted with a solvent matrix consisting of one or more organic solvents and optionally water. The cannabis plant material is agitated in the solvent matrix and then removed by filtration or centrifugation. Following extraction, the plant material is separated from the solvent matrix by centrifugation. The resulting extract is clarified by membrane filtration which also removes most of the water and water-soluble impurities. The resulting extract is dewaxed using membrane filtration and/or liquid-liquid extraction. Excess solvent and terpenoids are removed by means of molecular weight cutoff membrane filtration and the resulting cannabinoid solution is decarboxylated catalytically. Seed crystals are added to crystallize the cannabinoids.

Cannabis plant material is extracted with a solvent matrix consisting of one or more organic solvents and optionally water. The cannabis plant material is agitated in the solvent matrix and then removed by filtration or centrifugation. Following extraction, the plant material is separated from the solvent matrix by centrifugation. The resulting extract is clarified by membrane filtration which also removes most of the water and water-soluble impurities. The resulting extract is dewaxed using membrane filtration and/or liquid-liquid extraction. Excess solvent and terpenoids are removed by means of molecular weight cutoff membrane filtration and the resulting cannabinoid solution is decarboxylated catalytically. Seed crystals are added to crystallize the cannabinoids.

Crystalline Cannabidiol of a novel form, including (R,R)-(−)-crystalline Cannabidiol, as well as methods of making such novel form of Cannabidiol, pharmaceutical formulations comprising such novel form of Cannabidiol, and methods of treating diseases with such novel form of Cannabidiol.

The present invention relates to an improved method for producing 4-isopropyl-3-methylphenol (p-thymol) from distillation residues of thymol production.

The present invention relates to an improved method for producing 4-isopropyl-3-methylphenol (p-thymol) from distillation residues of thymol production.

The present invention relates to a method for separating off a substance from a solution, in which electromagnetic radiation is radiated into the solution, an intensity of the electromagnetic radiation which has been scattered by crystals located in the solution is detected, the detected intensity is compared with a desired intensity (I.sub.S) and the temperature of the solution is regulated depending on the difference between the detected intensity and the desired intensity (I.sub.S) in such a way that the amount of this difference is reduced. If the amount of the difference between the detected intensity and the desired intensity (I.sub.S) is less than a limiting value, a crystallization method is started in which crystals of the substance are obtained which are then separated off.