Converting into high-value-added products represents
the most optimal
approach to CO2 utilization. The substitution of CO with
CO2 as a potential critical material for formamide production
is widely regarded as an ideal pathway and has garnered significant
attention. However, high temperatures and pressures remain essential
for the reaction, exerting a substantial influence on the utilization
process. Herein, N-formylmorpholine was creatively
synthesized by integrating the capture and solar-driven utilization
of CO2 with morpholine. Notably, a remarkable N-formylmorpholine yield of 11433.3 μmol·h–1·g–1 was obtained, surpassing pure MoO3 by an astounding factor of 89.1 with a N-formylmorpholine yield of 63.8 μmol in 6 h, which is an astonishing
increase of 57.5 times compared to MoO3. Both experimental
results and density functional theory calculations suggest that the
inclusion of Fe can effectively reduce the formation energy barrier
while facilitating the desorption process of N-formylmorpholine,
thereby optimizing the overall performance.