Photolysis of CO 2 Carbamate for Hydrocarboxylation Reactions

The conversion of carbon dioxide into value-added products has emerged as an alternative method to achieve net-zero emissions. While technologies that transform CO₂ into fuels and chemical feedstocks have made great strides, the direct use of CO₂ as a C1 synthon for the formation of new carbon-carbon bonds remains a critical challenge. Herein, we present a new catalytic CO₂ activation mode for hydrocarboxylation reactions. Key to this methodology is the formation of a CO₂ carbamate with a phenothiazine catalyst, which sets the required trigonal geometry for the release of CO₂^•- via photolysis upon absorption of visible light. The polarity-reversed CO₂^•- is employed in the hydrocarboxylation reactions of alkenes and heterocycles. This protocol is distinguished by its mild reaction conditions, wide substrate scope and broad applicability, even in the context of pharmaceutical cores. Our chemistry can also be utilized for the synthesis of carbon-13 labeled spirolactones using ¹³CO₂. Mechanistic experiments support the photolysis of the CO₂ carbamate as the main productive pathway under our optimized reaction conditions.