We describe a first-principles statistical mechanics approach enabling us to simulate the steady-state situation of heterogeneous catalysis. In a first step, density-functional theory together with transition-state theory is employed to obtain the energetics of the relevant elementary processes. Subsequently the statistical mechanics problem is solved by the kinetic Monte Carlo method, which accounts for the correlations, fluctuations, and spatial distributions of the chemicals at the surface of the catalyst under steady-state conditions. Applying this approach to the catalytic oxidation of CO at RuO2(110), we determine the surface atomic structure and composition in reactive environments ranging from ultra-high vacuum (UHV) to technologica...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Using the catalytic CO oxidation at RuO2(110) as a showcase, we employ first-principles kinetic Mont...
Kinetic Monte Carlo (kMC) simulations of the CO oxidation over RuO<sub>2</sub>(110) have been perfor...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
A first-principles based multiscale modeling approach to heterogeneous catalysis is presented, that ...
The turnover frequency of the catalytic oxidation of CO at RuO2(110) was calculated as a function of...
We present a first-principles based multiscale modeling approach to heterogeneous catalysis that int...
We present a first-principles based multiscale modeling approach to heterogeneous catalysis that int...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
Microkinetic modeling of surface chemical reactions still relies heavily on the mean-field based rat...
ABSTRACT: The theoretical study of catalysis would sub-stantialy benefit from the use of atomistic s...
We present a density-functional theory based kinetic Monte Carlo study of CO oxidation at the (111) ...
We present a first-principles based multiscale modeling approach to heterogeneous catalysis that int...
First-principles kinetic Monte Carlo (1p-kMC) simulations for CO oxidation on two RuO2 facets, RuO2(...
Using the catalytic CO oxidation at RuO2(110) as a showcase, we employ first-principles kinetic Mont...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Using the catalytic CO oxidation at RuO2(110) as a showcase, we employ first-principles kinetic Mont...
Kinetic Monte Carlo (kMC) simulations of the CO oxidation over RuO<sub>2</sub>(110) have been perfor...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
A first-principles based multiscale modeling approach to heterogeneous catalysis is presented, that ...
The turnover frequency of the catalytic oxidation of CO at RuO2(110) was calculated as a function of...
We present a first-principles based multiscale modeling approach to heterogeneous catalysis that int...
We present a first-principles based multiscale modeling approach to heterogeneous catalysis that int...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
Microkinetic modeling of surface chemical reactions still relies heavily on the mean-field based rat...
ABSTRACT: The theoretical study of catalysis would sub-stantialy benefit from the use of atomistic s...
We present a density-functional theory based kinetic Monte Carlo study of CO oxidation at the (111) ...
We present a first-principles based multiscale modeling approach to heterogeneous catalysis that int...
First-principles kinetic Monte Carlo (1p-kMC) simulations for CO oxidation on two RuO2 facets, RuO2(...
Using the catalytic CO oxidation at RuO2(110) as a showcase, we employ first-principles kinetic Mont...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Using the catalytic CO oxidation at RuO2(110) as a showcase, we employ first-principles kinetic Mont...
Kinetic Monte Carlo (kMC) simulations of the CO oxidation over RuO<sub>2</sub>(110) have been perfor...