Add to ORKGThe turnover frequency of the catalytic oxidation of CO at RuO2(110) was calculated as a function of temperature and partial pressures using ab initio statistical mechanics. The underlying energetics of the gas-phase molecules, dissociation, adsorption, surface diffusion, surface chemical reactions, and desorption were obtained by all-electron density-functional theory. The resulting CO2 formation rate [in the full (T,pCO,pO2) space], the movies displaying the atomic motion and reactions over times scales from picoseconds to seconds, and the statistical analyses provide insight into the concerted actions ruling heterogeneous catalysis and open thermodynamic systems in general
Catalysis describes the acceleration of a chemical reaction by means of a substance that is itself n...
We employ a multiscale modeling approach to study the surface structure and composition of a Pd(100)...
Using density functional theory and an exchange–correlation functional that includes the van der Waa...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
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 ...
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...
Microkinetic modeling of surface chemical reactions still relies heavily on the mean-field based rat...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
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...
ABSTRACT: The theoretical study of catalysis would sub-stantialy benefit from the use of atomistic s...
Catalysis describes the acceleration of a chemical reaction by means of a substance that is itself n...
We employ a multiscale modeling approach to study the surface structure and composition of a Pd(100)...
Using density functional theory and an exchange–correlation functional that includes the van der Waa...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
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 ...
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...
Microkinetic modeling of surface chemical reactions still relies heavily on the mean-field based rat...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
The primary reason why the RuO2(1 1 0) surface is much more active in the oxidation of CO than the c...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
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...
ABSTRACT: The theoretical study of catalysis would sub-stantialy benefit from the use of atomistic s...
Catalysis describes the acceleration of a chemical reaction by means of a substance that is itself n...
We employ a multiscale modeling approach to study the surface structure and composition of a Pd(100)...
Using density functional theory and an exchange–correlation functional that includes the van der Waa...