Add to ORKGWe used density functional theory quantum mechanics with periodic boundary conditions to determine the atomistic mechanism underlying catalytic activation of propane by the M1 phase of Mo-V-Nb-Te-O mixed metal oxides. We find that propane is activated by Te═O through our recently established reduction-coupled oxo activation mechanism. More importantly, we find that the C–H activation activity of Te═O is controlled by the distribution of nearby V atoms, leading to a range of activation barriers from 34 to 23 kcal/mol. On the basis of the new insight into this mechanism, we propose a synthesis strategy that we expect to form a much more selective single-phase Mo-V-Nb-Te-O catalyst
We will report here first principles predictions (d. functional theory with periodic boundary condit...
RAFFINAGE+BDN:PDEThe influence of Te or Sb on the catalytic properties of the M1 phase of MoVTe(Sb)N...
Multicomponent bulk Mo-V-M oxides (M = a mixture of Nb, Te, Sb, etc.) containing complex mixtures of...
We used density functional theory quantum mechanics with periodic boundary conditions to determine t...
We report here first-principles-based predictions of the structures, mechanisms, and activation barr...
We report here first-principles-based predictions of the structures, mechanisms, and activation barr...
We report here first principles predictions (density functional theory with periodic boundary condit...
In order to determine the chemical mechanism for the (amm)oxidation of propane and propene on multim...
We report the first detailed density functional theory study on the mechanisms of initial propane ac...
Trabajo presentado en Chemistry and Molecular Sciences and Technologies COST Action CM1104, celebrad...
In order to understand the remarkable activity of α-Bi2Mo3O12 for selective oxidation and ammoxidati...
In order to understand the remarkable activity of α-Bi2Mo3O12 for selective oxidation and ammoxidati...
Mixed oxides composed of the four metals Mo, V, Te, and Nb are known to be efficient catalysts in se...
Mixed oxides composed of the four metals Mo, V, Te, and Nb are known to be efficient catalysts in se...
Advances in theory and methods of quantum mechanics and in supercomputers are making it practical to...
We will report here first principles predictions (d. functional theory with periodic boundary condit...
RAFFINAGE+BDN:PDEThe influence of Te or Sb on the catalytic properties of the M1 phase of MoVTe(Sb)N...
Multicomponent bulk Mo-V-M oxides (M = a mixture of Nb, Te, Sb, etc.) containing complex mixtures of...
We used density functional theory quantum mechanics with periodic boundary conditions to determine t...
We report here first-principles-based predictions of the structures, mechanisms, and activation barr...
We report here first-principles-based predictions of the structures, mechanisms, and activation barr...
We report here first principles predictions (density functional theory with periodic boundary condit...
In order to determine the chemical mechanism for the (amm)oxidation of propane and propene on multim...
We report the first detailed density functional theory study on the mechanisms of initial propane ac...
Trabajo presentado en Chemistry and Molecular Sciences and Technologies COST Action CM1104, celebrad...
In order to understand the remarkable activity of α-Bi2Mo3O12 for selective oxidation and ammoxidati...
In order to understand the remarkable activity of α-Bi2Mo3O12 for selective oxidation and ammoxidati...
Mixed oxides composed of the four metals Mo, V, Te, and Nb are known to be efficient catalysts in se...
Mixed oxides composed of the four metals Mo, V, Te, and Nb are known to be efficient catalysts in se...
Advances in theory and methods of quantum mechanics and in supercomputers are making it practical to...
We will report here first principles predictions (d. functional theory with periodic boundary condit...
RAFFINAGE+BDN:PDEThe influence of Te or Sb on the catalytic properties of the M1 phase of MoVTe(Sb)N...
Multicomponent bulk Mo-V-M oxides (M = a mixture of Nb, Te, Sb, etc.) containing complex mixtures of...