AbstractThe purpose of this paper is to describe a two-dimensional catalytic surface reaction between two reactants, M and Pn: Pn + nM → nPM, where Pn is a polymer consisting of n identical atoms and M is a monomer. A classical example is the oxidation of carbon monoxide. In this case, M = CO and Pn = O2. We will consider the case where n, the polymer size, is large. Detailed proofs will be given in a forthcoming paper
“Hot” dimers are molecules which after adsorption dissociate and each of the remaining “hot” monomer...
This is the first report on the catalytic room temperature free-radical polymerization of vinyl mono...
The catalytic oxidation of carbon monoxide (CO) on a platinum (111) surface was studied by scanning ...
AbstractThe purpose of this paper is to describe a two-dimensional catalytic surface reaction betwee...
Abstract:- The paper contains results of computational experiments with mathematical models of the c...
Surface science in catalysis has diversified from a discipline based on ultra high vacuum studies of...
A nonlinear mathematical model describing the kinetics of a bimolecular heterogeneous catalytic reac...
The catalytic oxidation of carbon monoxide (CO) and propylene on platinum catalysts has gained consi...
Numerical Study of the Two-molecular Catalytic Reaction on Composite Catalyst Two-molecular heteroge...
In this work, we consider a simple model of reaction-limited annihilation A + B ~ 0 with a random so...
The traditional approach followed for mathematically modeling physico-chemical processes on catalyti...
The exploration of pattern formation by reaction-diffusion systems in complex bounded domains has be...
A Monte-Carlo study of the catalytic reaction of CO and O$\sb2$ over transition metal surfaces is pr...
Mathematical models are used to elucidate properties of the monomer-monomer and monomer-dimer type c...
We consider the factors that govern the activity of bifunctional catalysts comprised of active parti...
“Hot” dimers are molecules which after adsorption dissociate and each of the remaining “hot” monomer...
This is the first report on the catalytic room temperature free-radical polymerization of vinyl mono...
The catalytic oxidation of carbon monoxide (CO) on a platinum (111) surface was studied by scanning ...
AbstractThe purpose of this paper is to describe a two-dimensional catalytic surface reaction betwee...
Abstract:- The paper contains results of computational experiments with mathematical models of the c...
Surface science in catalysis has diversified from a discipline based on ultra high vacuum studies of...
A nonlinear mathematical model describing the kinetics of a bimolecular heterogeneous catalytic reac...
The catalytic oxidation of carbon monoxide (CO) and propylene on platinum catalysts has gained consi...
Numerical Study of the Two-molecular Catalytic Reaction on Composite Catalyst Two-molecular heteroge...
In this work, we consider a simple model of reaction-limited annihilation A + B ~ 0 with a random so...
The traditional approach followed for mathematically modeling physico-chemical processes on catalyti...
The exploration of pattern formation by reaction-diffusion systems in complex bounded domains has be...
A Monte-Carlo study of the catalytic reaction of CO and O$\sb2$ over transition metal surfaces is pr...
Mathematical models are used to elucidate properties of the monomer-monomer and monomer-dimer type c...
We consider the factors that govern the activity of bifunctional catalysts comprised of active parti...
“Hot” dimers are molecules which after adsorption dissociate and each of the remaining “hot” monomer...
This is the first report on the catalytic room temperature free-radical polymerization of vinyl mono...
The catalytic oxidation of carbon monoxide (CO) on a platinum (111) surface was studied by scanning ...
DOI