Abstract
A mechanistic investigation into the guanidine-catalyzed reductive amination of CO2, using a combination of 1H, 29Si NMR, FT-IR, MS, and GC profiling, is reported. Inexpensive and readily available N,N,N′,N′-tetramethylguanidine (TMG) was found to be an equally effective catalyst compared to more elaborate cyclic guanidines. Different catalytic pathways to formamide 2, aminal 4, and N-methylamine 3 were identified. A pathway to formamide product 2 dominates at 23 °C. Increasing the reaction temperature to 60 °C enables a competitive, higher-energy pathway to 4 and 3, which requires direct reduction of CO2 with PhSiH3 to formoxysilane E. Reduction of aminal 4, in the presence of CO2 and the catalyst, led to formation of a 1:1 ratio of 2 and 3. The catalyst itself can be formylated under the reaction conditions, resulting in its deactivation. Thus, alkylated TMGs were found to be more stable and more active catalysts than TMG, leading to a successful organocatalyzed reductive functionalization of CO2 with s...
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