Add to ORKGWe employ a multiscale modeling approach to study the surface structure and composition of a Pd(100) model catalyst in reactive environments. Under gas phase conditions representative of technological CO oxidation ( ~ 1 atm, 300–600 K) we find the system on the verge of either stabilizing subnanometer thin oxide structures or CO adlayers at the surface. Under steady-state operation this suggests the presence or continuous formation and reduction of oxidic patches at the surface, which could be key to understand the observable catalytic function
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
ABSTRACT: Under technologically relevant oxygen-rich conditions, the reaction mechanism of CO oxidat...
The catalytic oxidation activity of platinum particles in automobile catalysts is thought to origina...
We employ a multiscale modeling approach to study the surface structure and composition of a Pd(100)...
The possible formation of oxides or thin oxide films (surface oxides) on late transition-metal surfa...
The possible formation of oxides or thin oxide films (surface oxides) on late transition-metal surfa...
The catalytic oxidation using transition metals (TM) as the active material is an important technolo...
The catalytic oxidation using transition metals (TM) as the active material is an important technolo...
The possible significance of oxide formation for the catalytic activity of transition metals in hete...
The possible significance of oxide formation for the catalytic activity of transition metals in hete...
The catalytic oxidation using transition metals (TM) as the active material is an important technolo...
The possible formation of oxides or thin oxide films (surface oxides) on late transition-metal surfa...
The possible significance of oxide formation for the catalytic activity of transition metals in hete...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
We present first-principles kinetic Monte Carlo (1p-kMC) simulations addressing the CO oxidation rea...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
ABSTRACT: Under technologically relevant oxygen-rich conditions, the reaction mechanism of CO oxidat...
The catalytic oxidation activity of platinum particles in automobile catalysts is thought to origina...
We employ a multiscale modeling approach to study the surface structure and composition of a Pd(100)...
The possible formation of oxides or thin oxide films (surface oxides) on late transition-metal surfa...
The possible formation of oxides or thin oxide films (surface oxides) on late transition-metal surfa...
The catalytic oxidation using transition metals (TM) as the active material is an important technolo...
The catalytic oxidation using transition metals (TM) as the active material is an important technolo...
The possible significance of oxide formation for the catalytic activity of transition metals in hete...
The possible significance of oxide formation for the catalytic activity of transition metals in hete...
The catalytic oxidation using transition metals (TM) as the active material is an important technolo...
The possible formation of oxides or thin oxide films (surface oxides) on late transition-metal surfa...
The possible significance of oxide formation for the catalytic activity of transition metals in hete...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
We present first-principles kinetic Monte Carlo (1p-kMC) simulations addressing the CO oxidation rea...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
ABSTRACT: Under technologically relevant oxygen-rich conditions, the reaction mechanism of CO oxidat...
The catalytic oxidation activity of platinum particles in automobile catalysts is thought to origina...