Add to ORKGSome mechanisms of the reduction reaction of NO by CO on rhodium are analyzed and discussed, solving the kinetics equations and using Monte Carlo simulations, in terms of its ability to interpret the recent experiments of Zaera et al., who used a molecular beam method to study experimentally the kinetics of the reaction. Critical use is also made of the information on rate constants available for this system in the literature. Uniform catalytic surfaces and the statistical incipient percolation cluster (IPC) fractal are considered in the simulations
Catalytic reactions are essentially a cycle of elementary steps. Modeling the kinetics of overall re...
Rhodium has been proved to possess unique reactivity to convert NO<sub><i>x</i></sub> into N<sub>2</...
Catalytic reduction using CO has significant potential for the control of NOx using Pt group catalys...
The reduction reaction of NO by CO over Pd is studied by means of a Monte Carlo simulation. A reacti...
The kinetics of the catalytic reduction of NO by CO on Rh(111) was simulated by using a lattice-gas ...
A model for the kinetics of NO reduction by CO on Rh(1 1 1) surfaces is proposed that takes into acc...
By means of a mechanism similar to that used by Peden and Permana for the reduction reaction of NO b...
Kinetic oscillations in the catalytic reduction of NO by CO on a reconstructing Pt(100) surface are ...
Isothermal kinetic studies on the reduction of NO by CO on Rh(1 1 1) single-crystal surfaces, perfor...
Oscillations and pattern formation driven by a surface reconstruction are studied for the catalytic ...
Theoretical simulations by a dynamic Monte Carlo method were carried out with respect to the catalyt...
Steady-state rates for the catalytic reaction of NO with CO on Rh(111) surfaces have been measured u...
In this work we study a model of a catalytic reaction among three monomers in order to understand th...
The transient kinetics of the reaction between NO and CO on clean Rh(111) surfaces have been studied...
A brief overview of results from isothermal kinetic studies on the reduction of NO by CO on rhodium ...
Catalytic reactions are essentially a cycle of elementary steps. Modeling the kinetics of overall re...
Rhodium has been proved to possess unique reactivity to convert NO<sub><i>x</i></sub> into N<sub>2</...
Catalytic reduction using CO has significant potential for the control of NOx using Pt group catalys...
The reduction reaction of NO by CO over Pd is studied by means of a Monte Carlo simulation. A reacti...
The kinetics of the catalytic reduction of NO by CO on Rh(111) was simulated by using a lattice-gas ...
A model for the kinetics of NO reduction by CO on Rh(1 1 1) surfaces is proposed that takes into acc...
By means of a mechanism similar to that used by Peden and Permana for the reduction reaction of NO b...
Kinetic oscillations in the catalytic reduction of NO by CO on a reconstructing Pt(100) surface are ...
Isothermal kinetic studies on the reduction of NO by CO on Rh(1 1 1) single-crystal surfaces, perfor...
Oscillations and pattern formation driven by a surface reconstruction are studied for the catalytic ...
Theoretical simulations by a dynamic Monte Carlo method were carried out with respect to the catalyt...
Steady-state rates for the catalytic reaction of NO with CO on Rh(111) surfaces have been measured u...
In this work we study a model of a catalytic reaction among three monomers in order to understand th...
The transient kinetics of the reaction between NO and CO on clean Rh(111) surfaces have been studied...
A brief overview of results from isothermal kinetic studies on the reduction of NO by CO on rhodium ...
Catalytic reactions are essentially a cycle of elementary steps. Modeling the kinetics of overall re...
Rhodium has been proved to possess unique reactivity to convert NO<sub><i>x</i></sub> into N<sub>2</...
Catalytic reduction using CO has significant potential for the control of NOx using Pt group catalys...