The reaction profile for sulfide oxidation by formally Mn(v)=O species depends critically on the electronic structure of the isolated oxidant. In cases where the ground state has dominant oxyl radical character, the oxidation occurs in sequential one-electron steps, the first of which is barrierless. In contrast, if the oxyl radical character is 'masked' in the ground state by electron transfer from either the metal or the porphyrin co-ligand, the interaction between oxidant and substrate is repulsive at large separations, only becoming attractive when the incoming nucleophile approaches close enough to drive an electron out of oxide p pi manifold, thereby 'unmasking' the oxyl radical. The shape of the repulsive wall at long range will depe...
The Mn-oxo porphyrin (MnOP) mechanism for substrate hydroxylation is computationally studied with th...
Possibly the most fascinating biochemical mechanism remaining to be solved is the formation of oxyge...
Possibly the most fascinating biochemical mechanism remaining to be solved is the formation of oxyge...
The reaction profile for sulfide oxidation by formally Mn(v)=O species depends critically on the ele...
The reaction profile for sulfide oxidation by formally Mn(V)=O species depends critically on the ele...
MnV=O functionalities are important in synthetic and bioinorganic chemistry, being relevant to both ...
The reasons why oxo-peroxo molybdenum complexes chemoselectively oxidize unsaturated sulfides to the...
Density functional theory suggests that the formal 2-electron oxidation of sulfides, RR'S, to sulfox...
Over the past decades metalloenzymes and their synthetic models have emerged as an area of increasin...
Density functional theory suggests that the formal 2-electron oxidation of sulfides, RR′S, to sulfox...
Selective oxidation of organic substrates by oxygen, where all 4 oxidizing equivalents are used prod...
The functions of metal complexes are directly linked to the local environment in which they are hous...
ABSTRACT: Addition of anionic donors to the manganese(V)−oxo corrolazine complex MnV(O)(TBP8Cz) has ...
Mn<sup>V</sup>O functionalities are important in synthetic and bioinorganic chemistry, being releva...
Addition of anionic donors to the manganese(V)−oxo corrolazine complex MnV(O)(TBP8Cz) has a dramatic...
The Mn-oxo porphyrin (MnOP) mechanism for substrate hydroxylation is computationally studied with th...
Possibly the most fascinating biochemical mechanism remaining to be solved is the formation of oxyge...
Possibly the most fascinating biochemical mechanism remaining to be solved is the formation of oxyge...
The reaction profile for sulfide oxidation by formally Mn(v)=O species depends critically on the ele...
The reaction profile for sulfide oxidation by formally Mn(V)=O species depends critically on the ele...
MnV=O functionalities are important in synthetic and bioinorganic chemistry, being relevant to both ...
The reasons why oxo-peroxo molybdenum complexes chemoselectively oxidize unsaturated sulfides to the...
Density functional theory suggests that the formal 2-electron oxidation of sulfides, RR'S, to sulfox...
Over the past decades metalloenzymes and their synthetic models have emerged as an area of increasin...
Density functional theory suggests that the formal 2-electron oxidation of sulfides, RR′S, to sulfox...
Selective oxidation of organic substrates by oxygen, where all 4 oxidizing equivalents are used prod...
The functions of metal complexes are directly linked to the local environment in which they are hous...
ABSTRACT: Addition of anionic donors to the manganese(V)−oxo corrolazine complex MnV(O)(TBP8Cz) has ...
Mn<sup>V</sup>O functionalities are important in synthetic and bioinorganic chemistry, being releva...
Addition of anionic donors to the manganese(V)−oxo corrolazine complex MnV(O)(TBP8Cz) has a dramatic...
The Mn-oxo porphyrin (MnOP) mechanism for substrate hydroxylation is computationally studied with th...
Possibly the most fascinating biochemical mechanism remaining to be solved is the formation of oxyge...
Possibly the most fascinating biochemical mechanism remaining to be solved is the formation of oxyge...