The goal of this paper is to gather and develop some necessary and sufficient criteria for injectivity and multistationarity in vector fields associated with a chemical reaction network under a variety of more or less general assumptions on the nature of the network and the reaction rates. The results are primarily linear algebraic or matrix-theoretic, with some graph-theoretic results also mentioned. Several results appear in, or are close to, results in the literature. Here, we emphasise the connections between the results, and where possible, present elementary proofs which rely solely on basic linear algebra and calculus. A number of examples are provided to illustrate the variety of subtly different conclusions which can be reached via...
We show that adding new chemical species into the reactions of a chemical reaction network (CRN) in ...
One important question that interests those who work in chemical reaction network theory (CRNT) is t...
This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace g...
The goal of this paper is to gather and develop some necessary and sufficient criteria for injectivi...
The goal of this paper is to gather and develop some necessary and sufficient criteria for injectivi...
In this paper we discuss the question of how to decide when a general chemical reaction system is in...
We study how the properties of allowing multiple positive nondegenerate equilibria (MPNE) and multip...
AbstractIn this paper we discuss the question of how to decide when a general chemical reaction syst...
This project explores a topic in Chemical Reaction Network Theory. We analyze networks with one dime...
Dynamical system models of complex biochemical reaction networks are high-dimensional, nonlinear, an...
A family of results, referred to as inheritance results, tell us which enlargements of a chemical re...
A family of results, referred to as inheritance results, tell us which enlargements of a chemical re...
International audienceBiochemical reaction networks grow bigger and bigger, fed by the high-throughp...
Multistationary chemical reaction networks are of interest to scientists and mathematicians alike. W...
Under the assumption of mass-action kinetics, systems of chemical reactions can give rise to a wide ...
We show that adding new chemical species into the reactions of a chemical reaction network (CRN) in ...
One important question that interests those who work in chemical reaction network theory (CRNT) is t...
This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace g...
The goal of this paper is to gather and develop some necessary and sufficient criteria for injectivi...
The goal of this paper is to gather and develop some necessary and sufficient criteria for injectivi...
In this paper we discuss the question of how to decide when a general chemical reaction system is in...
We study how the properties of allowing multiple positive nondegenerate equilibria (MPNE) and multip...
AbstractIn this paper we discuss the question of how to decide when a general chemical reaction syst...
This project explores a topic in Chemical Reaction Network Theory. We analyze networks with one dime...
Dynamical system models of complex biochemical reaction networks are high-dimensional, nonlinear, an...
A family of results, referred to as inheritance results, tell us which enlargements of a chemical re...
A family of results, referred to as inheritance results, tell us which enlargements of a chemical re...
International audienceBiochemical reaction networks grow bigger and bigger, fed by the high-throughp...
Multistationary chemical reaction networks are of interest to scientists and mathematicians alike. W...
Under the assumption of mass-action kinetics, systems of chemical reactions can give rise to a wide ...
We show that adding new chemical species into the reactions of a chemical reaction network (CRN) in ...
One important question that interests those who work in chemical reaction network theory (CRNT) is t...
This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace g...