Flow Electrophotocatalysis in Organic Synthesis: Advantages & Challenges

In the past few years, the immense synthetic capability of electrophotocatalysis, the hybrid methodology of electrochemistry and photochemistry, has been realised, owing to advancements in each field over the past couple of decades. This has been driven by the desire to obtain more efficient and sustainable synthetic practices, which is made possible by using two of the most abundant and well-known substances as traceless reagents, namely electrons and photons. It has been realised that while electrosynthesis and photoredox catalysis are imperfect, their respective strengths can near perfectly compensate for the weaknesses of the other. Moreover, continuous flow chemistry has also emerged as an improved strategy in which to conduct chemical transformations, particularly in terms of reaction screening and scale up. In this review, we cover advancements in electrophotocatalysis but do so while predominantly focusing on those conducted through continuous flow reactors. We have then taken this a step further by taking an engineering approach to the reactor design, discussing reports on flow electrophotocatalysis terms of the two most reported reactor types.