Add to ORKGWe have recently reported on several Fe catalysts for N_2-to-NH_3 conversion that operate at low temperature (−78 °C) and atmospheric pressure while relying on a very strong reductant (KC_8) and acid ([H(OEt_2)_2][BArF_4]). Here we show that our original catalyst system, P_3^BFe, achieves both significantly improved efficiency for NH_3 formation (up to 72% for e^– delivery) and a comparatively high turnover number for a synthetic molecular Fe catalyst (84 equiv of NH_3 per Fe site), when employing a significantly weaker combination of reductant (Cp*_2Co) and acid ([Ph_2NH_2][OTf] or [PhNH_3][OTf]). Relative to the previously reported catalysis, freeze-quench Mössbauer spectroscopy under turnover conditions suggests a change in the rate of k...
Nitrogenase enzymes mediate the six-electron reductive cleavage of cyanide to CH_4 and NH_3. Herein ...
In part as an effort to probe the viability of a single iron site hypothesis for the binding and con...
Substrate selectivity in reductive multielectron/proton catalysis with small molecules such as N<sub...
We have recently reported on several Fe catalysts for N_2-to-NH_3 conversion that operate at low tem...
We have recently reported on several Fe catalysts for N<sub>2</sub>-to-NH<sub>3</sub> conversion tha...
Substrate selectivity in reductive multi-electron/proton catalysis with small molecules such as N_2,...
The mechanisms of the few known molecular nitrogen-fixing systems, including nitrogenase enzymes, ar...
Biological N_2 fixation to NH_3 may proceed at one or more Fe sites in the active-site cofactors of ...
Terminal iron nitrides (Fe≡N) have been proposed as intermediates of (bio)catalytic nitrogen fixatio...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
The goal of using ammonia as a solar fuel motivates the development of selective ammonia oxidation (...
While recent spectroscopic studies have established the presence of an interstitial carbon atom at t...
The catalytic synthesis of NH3 from the thermodynamically challenging N2 reduction reaction under mi...
This report details research into the mechanism and operating principles underlying the nitrogen fix...
One of the emerging challenges associated with developing robust synthetic nitrogen fixation catalys...
Nitrogenase enzymes mediate the six-electron reductive cleavage of cyanide to CH_4 and NH_3. Herein ...
In part as an effort to probe the viability of a single iron site hypothesis for the binding and con...
Substrate selectivity in reductive multielectron/proton catalysis with small molecules such as N<sub...
We have recently reported on several Fe catalysts for N_2-to-NH_3 conversion that operate at low tem...
We have recently reported on several Fe catalysts for N<sub>2</sub>-to-NH<sub>3</sub> conversion tha...
Substrate selectivity in reductive multi-electron/proton catalysis with small molecules such as N_2,...
The mechanisms of the few known molecular nitrogen-fixing systems, including nitrogenase enzymes, ar...
Biological N_2 fixation to NH_3 may proceed at one or more Fe sites in the active-site cofactors of ...
Terminal iron nitrides (Fe≡N) have been proposed as intermediates of (bio)catalytic nitrogen fixatio...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
The goal of using ammonia as a solar fuel motivates the development of selective ammonia oxidation (...
While recent spectroscopic studies have established the presence of an interstitial carbon atom at t...
The catalytic synthesis of NH3 from the thermodynamically challenging N2 reduction reaction under mi...
This report details research into the mechanism and operating principles underlying the nitrogen fix...
One of the emerging challenges associated with developing robust synthetic nitrogen fixation catalys...
Nitrogenase enzymes mediate the six-electron reductive cleavage of cyanide to CH_4 and NH_3. Herein ...
In part as an effort to probe the viability of a single iron site hypothesis for the binding and con...
Substrate selectivity in reductive multielectron/proton catalysis with small molecules such as N<sub...