Topics
ironMilitary unit
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ligandChemical compound
nitrogen-fixingElection
nitrogen fixationElection
redoxAnatomical structure
Terminal iron nitrides (Fe≡N) have been proposed as intermediates of (bio)catalytic nitrogen fixation, yet experimental evidence to support this hypothesis has been lacking. In particular, no prior synthetic examples of terminal Fe≡N species have been derived from N_2. Here we show that a nitrogen-fixing Fe–N_2 catalyst can be protonated to form a neutral Fe(NNH_2) hydrazido(2−) intermediate, which, upon further protonation, heterolytically cleaves the N–N bond to release [Fe^(IV)≡N]^+ and NH_3. These observations provide direct evidence for the viability of a Chatt-type (distal) mechanism for Fe-mediated N_2-to-NH_3 conversion. The physical oxidation state range of the Fe complexes in this transformation is buffered by covalency with the l...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
Nitrogen fixation, specifically the conversion of molecular nitrogen into ammonia, is a fundamental ...
Nitrogenase enzymes mediate the six-electron reductive cleavage of cyanide to CH_4 and NH_3. Herein ...
Terminal iron nitrides (Fe≡N) have been proposed as intermediates of (bio)catalytic nitrogen fixatio...
Terminal iron nitrides (FeN) have been proposed as intermediates of (bio)catalytic nitrogen fixati...
Biological N_2 fixation to NH_3 may proceed at one or more Fe sites in the active-site cofactors of ...
The mechanisms of the few known molecular nitrogen-fixing systems, including nitrogenase enzymes, ar...
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 ...
Substrate selectivity in reductive multi-electron/proton catalysis with small molecules such as N_2,...
The intermediacy of metal–NNH_2 complexes has been implicated in the catalytic cycles of several exa...
Tris(phosphine)borane ligated Fe(I) centers featuring N_2H_4, NH_3, NH_2, and OH ligands are describ...
Tris(phosphine)borane ligated Fe(I) centers featuring N_2H_4, NH_3, NH_2, and OH ligands are describ...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
Nitrogen fixation, specifically the conversion of molecular nitrogen into ammonia, is a fundamental ...
Nitrogenase enzymes mediate the six-electron reductive cleavage of cyanide to CH_4 and NH_3. Herein ...
Terminal iron nitrides (Fe≡N) have been proposed as intermediates of (bio)catalytic nitrogen fixatio...
Terminal iron nitrides (FeN) have been proposed as intermediates of (bio)catalytic nitrogen fixati...
Biological N_2 fixation to NH_3 may proceed at one or more Fe sites in the active-site cofactors of ...
The mechanisms of the few known molecular nitrogen-fixing systems, including nitrogenase enzymes, ar...
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 ...
Substrate selectivity in reductive multi-electron/proton catalysis with small molecules such as N_2,...
The intermediacy of metal–NNH_2 complexes has been implicated in the catalytic cycles of several exa...
Tris(phosphine)borane ligated Fe(I) centers featuring N_2H_4, NH_3, NH_2, and OH ligands are describ...
Tris(phosphine)borane ligated Fe(I) centers featuring N_2H_4, NH_3, NH_2, and OH ligands are describ...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
The reduction of nitrogen (N_2) to ammonia (NH_3) is a requisite transformation for life. Although i...
Nitrogen fixation, specifically the conversion of molecular nitrogen into ammonia, is a fundamental ...
Nitrogenase enzymes mediate the six-electron reductive cleavage of cyanide to CH_4 and NH_3. Herein ...
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