Discovery of a photochemical cascade process by flow-based interception of isomerising alkenes

Mara Di Filippo; Cristina Trujillo; Goar Sánchez-Sanz; Andrei S Batsanov; Marcus Baumann

doi:10.1039/d1sc02879k

Discovery of a photochemical cascade process by flow-based interception of isomerising alkenes

Chem Sci. 2021 Jul 5;12(29):9895-9901. doi: 10.1039/d1sc02879k. eCollection 2021 Jul 28.

Authors

Mara Di Filippo¹, Cristina Trujillo², Goar Sánchez-Sanz^{1

3}, Andrei S Batsanov⁴, Marcus Baumann¹

Affiliations

¹ School of Chemistry, University College Dublin, Science Centre South D04 N2E2 Dublin Ireland marcus.baumann@ucd.ie.
² Trinity Biomedical Sciences Institute, School of Chemistry, The University of Dublin, Trinity College Dublin Ireland.
³ Irish Centre for High-End Computing (ICHEC) Grand Canal Quay Dublin 2 D02 HP83 Ireland.
⁴ Department of Chemistry, Durham University DH1 3LE South Road Durham UK.

Abstract

Herein we report the discovery of a new photochemical cascade process through a flow-based strategy for intercepting diradicals generated from simple alkenes. This continuous process delivers a series of unprecedented polycyclic reaction products. Exploring the scope of this novel process revealed that this approach is general and affords a variety of structurally complex reaction products in high yields (up to 81%), short reaction times (7 min) and high throughputs (up to 5.5 mmol h^-1). A mechanistic rationale is presented that is supported by computations as well as isolation of key intermediates whose identity is confirmed by X-ray crystallography. The presented photochemical cascade process demonstrates the discovery of new chemical reactivity and complex chemical scaffolds by continuously generating and intercepting high-energy intermediates in a highly practical manner.