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Photocatalytic Dinitrogen Reduction to Ammonia over Biomimetic FeMoS x Nanosheets.

Suresh ThanguduChien-Hou WuKuo-Chu Hwang
Published in: ACS omega (2024)
Reduction of atmospheric dinitrogen (N 2 ) to ammonia (NH 3 ) using water and sunlight in the absence of sacrificial reducing reagents at room temperature is very challenging and is considered an eco-friendly approach to meet the rapidly increasing demand for nitrogen storage, fertilizers, and a sustainable society. Currently, ammonia production via the energy-intensive Haber-Bosch process causes ∼350 million tons of carbon dioxide (CO 2 ) emission per year. Interestingly, natural N 2 fixation by the nitrogenase enzyme occurs under ambient conditions. Unfortunately, N 2 fixation on biomimetic catalysts has rarely been studied. To mimic biological nitrogen fixation, herein, we synthesized the novel iron molybdenum sulfide (FeMoS x ) micro-/nanosheets via a simple hydrothermal approach for the first time. Further, we successfully demonstrated the photochemical conversion of N 2 to NH 3 over a biomimetic FeMoS x photocatalyst. The estimated yield is around 99.79 ± 6.0 μmol/h/g photocatalyst with a quantum efficiency of ∼0.028% at 532 nm visible-light wavelength. Besides, we also systematically studied the influence of key factors to further improve NH 3 yields. Overall, this study paves a new pathway to fabricate carbon-free, photochemical N 2 fixation materials for future applications.
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