Abstract
Here we report a microfluidic system for photochemical cycloadditions fabricated using
silicon micro processing technologies. The system was optimized to yield residence
times of just a few minutes for a range of photochemical [2+2]-cycloaddition reactions
facilitated using high power UV-LEDs at 375 nm and triplet photosensitizers, which
removed the need for the low wavelengths typically required for these types of transformations.
Adducts using different excitable olefins with different linear, carbocyclic, and
heterocyclic coupling partners were explored to demonstrate the feasibility of performing
photochemistry in microflow in an academic research environment. Finally, a reaction
leading to a novel dihydrooxepin-2(3H)-one scaffold and a mechanistic proposal for its formation are reported.
Key words
photochemistry - flow chemistry - cycloadditions
