Straightforward synthesis of functionalized γ-Lactams using impure CO2 stream as the carbon source

Direct utilization of CO 2 into organic synthesis finds enormous applications to synthesize pharmaceuticals and fine chemicals. However, pure CO 2 gas is essential to achieve these transformations, and the purification of CO 2 is highly cost and energy intensive. Considering this, we describe a straightforward synthetic route for the synthesis of γ-lactams, a pivotal core structure of bioactive molecules, by using commercially available starting materials (alkenes and amines) and impure CO 2 stream (exhaust gas is collected from the car) as the carbon source. This blueprint features a broad scope, excellent functional group compatibility and application to the late-stage transformation of existing pharmaceuticals and natural products to synthesize functionalized γ-lactams. We believe that our strategy will provide direct access to γ-lactams in a very sustainable way and will also enhance the Carbon Capture and Utilization (CCU) strategy. Direct utilization of CO 2 is important in organic synthesis but purification of CO 2 gas expensive and energy intensive. Here the authors described a straightforward synthetic route for the synthesis of γ-lactams, a pivotal core structure of bioactive molecules, by using impure CO 2 stream as the carbon source.