Abstract

3D printing has the potential to transform the way in which chemical reactions are carried out due to its low‐cost, ease‐of‐use as a technology and its capacity to expedite the development of iteratively enhanced prototypes. In this present study, we developed a novel, low‐cost polypropylene (PP) column reactor that was incorporated into an existing continuous‐flow reactor for the synthesis of heterocycles. The utility and solvent resistance of the printed devices were explored in S N Ar reactions to produce substituted aniline derivatives and in the synthesis of bicyclic and tetracyclic heterocycles. Using this approach, a range of heterocyclic compounds was synthesised including the core structure of the natural product (±)‐γ‐lycorane and structurally complex compounds based on the tetracyclic core of the erythrina alkaloids.