How the Bioinspired Fe₂Mo₆S₈ Chevrel Breaks Electrocatalytic Nitrogen Reduction Scaling Relations

Abstract: The nitrogen reduction reaction (NRR) is a renewable alternative to the energy-and CO 2 -intensive Haber− Bosch NH 3 synthesis process but is severely limited by the low activity and selectivity of studied electrocatalysts. The Chevrel phase Fe 2 Mo 6 S 8 has a surface Fe−S−Mo coordination environment that mimics the nitrogenase FeMo-cofactor and was recently shown to provide state-of-the-art activity and selectivity for NRR. Here, we elucidate the previously unknown NRR mechanism on Fe 2 Mo 6 S 8 via grand-ca… Show more

“…101,[133][134][135] Theoretical calculations and experimental works proofed that synergy and electron coupling effect between Fe and Mo facilitate the charge transfer from metal orbitals to nitrogen species, and thus weaken the inert nitrogen triple bond. 56,118,136,137 Singstock et al explored how Fe 2 Mo 6 S 8 broke NRR scaling relationships using grand-canonical density functional theory (GC-DFT). 136 According to theoretical predictions, Mo sites exhibited the intrinsic characteristics of strong N 2 adsorption and large NH 3 dissociation barriers, even poisoning due to the over-binding of *NH 3 .…”

“…56,118,136,137 Singstock et al explored how Fe 2 Mo 6 S 8 broke NRR scaling relationships using grand-canonical density functional theory (GC-DFT). 136 According to theoretical predictions, Mo sites exhibited the intrinsic characteristics of strong N 2 adsorption and large NH 3 dissociation barriers, even poisoning due to the over-binding of *NH 3 . Fe active sites with sharp bands of freeatom-like d-states conspicuously overlapped with the nitrogen Fig.…”

“…224 Theoretical calculation: reproduced with permission: copyright 2022, American Chemical Society. 136 atom dispersion, and metal-organic framework precursors design; the related progress will be discussed in this section. 3.3.1.1.…”

The journey of iron-based electrocatalytic materials for nitrogen reduction reaction: from current status to future prospects

“…101,[133][134][135] Theoretical calculations and experimental works proofed that synergy and electron coupling effect between Fe and Mo facilitate the charge transfer from metal orbitals to nitrogen species, and thus weaken the inert nitrogen triple bond. 56,118,136,137 Singstock et al explored how Fe 2 Mo 6 S 8 broke NRR scaling relationships using grand-canonical density functional theory (GC-DFT). 136 According to theoretical predictions, Mo sites exhibited the intrinsic characteristics of strong N 2 adsorption and large NH 3 dissociation barriers, even poisoning due to the over-binding of *NH 3 .…”

“…56,118,136,137 Singstock et al explored how Fe 2 Mo 6 S 8 broke NRR scaling relationships using grand-canonical density functional theory (GC-DFT). 136 According to theoretical predictions, Mo sites exhibited the intrinsic characteristics of strong N 2 adsorption and large NH 3 dissociation barriers, even poisoning due to the over-binding of *NH 3 . Fe active sites with sharp bands of freeatom-like d-states conspicuously overlapped with the nitrogen Fig.…”

“…224 Theoretical calculation: reproduced with permission: copyright 2022, American Chemical Society. 136 atom dispersion, and metal-organic framework precursors design; the related progress will be discussed in this section. 3.3.1.1.…”

The journey of iron-based electrocatalytic materials for nitrogen reduction reaction: from current status to future prospects

“…Mechanistic studies have elucidated that Fe sites of the heterogeneous electrocatalyst selectively stabilize a key intermediate of the catalytic process. [139]…”

Insights from Enzymatic Catalysis: A Path towards Bioinspired High‐Performance Electrocatalysts

“…Unfortunately, due to the inherent inertia of NRN (bond energy: 941 kJ mol À1 ), limited nitrogen solubility, and the competitive hydrogen evolution reaction (HER) result in the formation rate, selectivity, and Faraday efficiency of nitrogen electroreduction to NH 3 being far from meeting the application requirements. 8,9 By contrast, the electrochemical reduction of nitrate to NH 3 (nitrate reduction reaction, NO 3 À RR, NO 3 À + 6H 2 O + 8e À -NH 3 + 9OH À ) represents an alternative and attractive route for sustainable ambient NH 3 synthesis owing to the high solubility of nitrate in aqueous solutions and the low dissociation energy of NQO (204 kJ mol À1 ). [10][11][12][13][14] Moreover, nitrate contamination has also been linked to increased risk for various types of cancer in humans.…”

Hypotoxic synthesis of Co₂P nanodendrites for boosting ammonia electrosynthesis from nitrate