Add to ORKGA Monte-Carlo study of the catalytic reaction of CO and O$\sb2$ over transition metal surfaces is presented, using generalizations of a model proposed by Ziff, Gulari and Barshad (ZGB). A new "constant-coverage" algorithm is described and applied to the model in order to elucidate the behavior near the model's first-order transition, and to draw an analogy between this transition and first-order phase transitions in equilibrium systems. The behavior of the model is then compared to the behavior of CO oxidation systems over Pt single-crystal catalysts. This comparison leads to the introduction of a new variation of the model in which one of the reacting species requires a large ensemble of vacant surface sites in order to adsorb. Further, it...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
We show that introduction of an additional adsorbate with appropriate adsorption and desorption rate...
One approach to study reaction kinetics over metal nanoparticles is to combine linear scaling relati...
A sophisticated description of surface reactions, including spatial correlations or ordering in the ...
A simple lattice-gas model for the electrocatalytic, carbon monoxide oxidation on a platinum electro...
Oscillations and pattern formation driven by a surface reconstruction are studied for the catalytic ...
Useful information on catalytic reactions can be achieved using Monte Carlo simulations combined wit...
The surface reaction model of Ziff, Gulari, and Barshad (ZGB) is investigated on finite systems with...
A Monte Carlo simulation of the formation of regular facet patterns during catalytic CO oxidation on...
We present the results of cellular automaton and Monte Carlo simulations for the case of CO oxidatio...
We have studied the behavior of a model bimolecular Langmuir-Hinshelwood heterogeneous catalytic rea...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Catalytic reactions are essentially a cycle of elementary steps. Modeling the kinetics of overall re...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
The adsorption of CO and desorption of CO2 interacting with the Pt (111) surface was investigated us...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
We show that introduction of an additional adsorbate with appropriate adsorption and desorption rate...
One approach to study reaction kinetics over metal nanoparticles is to combine linear scaling relati...
A sophisticated description of surface reactions, including spatial correlations or ordering in the ...
A simple lattice-gas model for the electrocatalytic, carbon monoxide oxidation on a platinum electro...
Oscillations and pattern formation driven by a surface reconstruction are studied for the catalytic ...
Useful information on catalytic reactions can be achieved using Monte Carlo simulations combined wit...
The surface reaction model of Ziff, Gulari, and Barshad (ZGB) is investigated on finite systems with...
A Monte Carlo simulation of the formation of regular facet patterns during catalytic CO oxidation on...
We present the results of cellular automaton and Monte Carlo simulations for the case of CO oxidatio...
We have studied the behavior of a model bimolecular Langmuir-Hinshelwood heterogeneous catalytic rea...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Catalytic reactions are essentially a cycle of elementary steps. Modeling the kinetics of overall re...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
The adsorption of CO and desorption of CO2 interacting with the Pt (111) surface was investigated us...
We describe a first-principles statistical mechanics approach enabling us to simulate the steady-sta...
We show that introduction of an additional adsorbate with appropriate adsorption and desorption rate...
One approach to study reaction kinetics over metal nanoparticles is to combine linear scaling relati...