Usona Identifies Controlled Crystal Engineering Process for Large-Scale Synthesis of Psilocybin Polymorphs

Usona Identifies Controlled Crystal Engineering Process for Large-Scale Synthesis of Psilocybin Polymorphs

New study in ACS Omega details optimal conditions for consistency and reproducibility of polymorphs

In a study published today in the journal ACS Omega, Usona Institute identifies the most favorable environments to achieve consistency and reproducibility of pharmaceutical psilocybin produced at large scale. The ability of a unique crystalline arrangement to solidify in more than one form, called polymorphs, can be optimized using precise combinations of engineering controls including temperature, cooling rate, saturation, stirring speed, and drying mode. (Graphic: Business Wire)

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https://www.businesswire.com/news/home/20220207005655/en/Usona-Identifies-Controlled-Crystal-Engineering-Process-for-Large-Scale-Synthesis-of-Psilocybin-Polymorphs