Chemical manufacturing is often done at large facilities that require a sizable capital investment and then produce key compounds for a finite period. We present an approach to the manufacturing of fine chemicals and pharmaceuticals in a self-contained plastic reactionware device. The device was designed and constructed by using a chemical to computer-automated design (ChemCAD) approach that enables the translation of traditional bench-scale synthesis into a platform-independent digital code. This in turn guides production of a three-dimensional printed device that encloses the entire synthetic route internally via simple operations. We demonstrate the approach for the γ-aminobutyric acid receptor agonist, (±)-baclofen, establishing a concept that paves the way for the local manufacture of drugs outside of specialist facilities.
An efficient route to AZD4635 has been developed utilizing the Suzuki−Miyaura reaction of a boronate ester prepared by C−H borylation on a multikilogram scale. Preparation of the cross-coupling partner using bromine/pyridine/ methanol has highlighted the incompatibility of this reagent/solvent combination with tantalum, which is commonly used in the construction and repair of standard manufacturing vessels.
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