A small-scale reactor for light-driven chemistry

Abstract

Seeking a way to standardize light-driven chemistry, researchers at Princeton University, led by David W. C. MacMillan, teamed up with scientists and engineers at Merck & Co., led by Ian W. Davies, to create a small-scale reactor to use for photochemical transformations (ACS Cent. Sci. 2017, DOI: 10.1021/acscentsci.7b00159). When a new reaction fails or performs poorly, there can be some ambiguity as to why that is, Davies explains. “We wanted to remove that ambiguity so that when we set up reactions and report them, they are set up consistently and are reproducible,” Davies says. The resulting reactor turns out to speed up many known light-driven reactions and boosts yields to boot. The researchers attribute this ability to the reaction vessel’s increased and highly uniform exposure to photons in the reactor. The system works with vials ranging from 2 to 40 mL. Different light sources can be swapped out, so photochemistry