This book provides an authoritative introduction to the rapidly growing field of chemical reaction network theory. In particular, the book presents deep and surprising theorems that relate the graphical and algebraic structure of a reaction network to qualitative properties of the intricate system of nonlinear differential equations that the network induces. Over the course of three main parts, Feinberg provides a gradual transition from a tutorial on the basics of reaction network theory, to a survey of some of its principal theorems, and, finally, to a discussion of the theory’s more technical aspects. Written with great clarity, this book will be of value to mathematicians and to mathematically-inclined biologists, chemists, physicists, ...
Motivated by recent progress on the interplay between graph theory, dynamics, and systems theory, we...
Many recent studies on Chemical Reaction Network Theory indicate that there is a renewed interest in...
In biological organisms, networks of chemical reactions control the processing of information in a c...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
Chemical and biological processes present a challenge when it comes to modelling and analysis. The m...
© 2019, Department of Science and Technology. All rights reserved. This paper reviews the theory of ...
A treatment of chemical reaction network theory is given from the perspective of nonlinear network d...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
Different types of macroscopic reaction kinetics can be derived from microscopic molecular interacti...
In the context of (bio)chemical reaction networks, the dynamics of the concentrations of the chemica...
The aim of this thesis is to improve the understanding of signaling pathways through a theoretical s...
Motivated by recent progress on the interplay between graph theory, dynamics, and systems theory, we...
In biological cells, chemical reaction pathways lead to complex network systems like metabolic netwo...
This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace g...
A new discipline of “systems chemistry” is emerging, which aims to capture the complexity observed i...
Motivated by recent progress on the interplay between graph theory, dynamics, and systems theory, we...
Many recent studies on Chemical Reaction Network Theory indicate that there is a renewed interest in...
In biological organisms, networks of chemical reactions control the processing of information in a c...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
Chemical and biological processes present a challenge when it comes to modelling and analysis. The m...
© 2019, Department of Science and Technology. All rights reserved. This paper reviews the theory of ...
A treatment of chemical reaction network theory is given from the perspective of nonlinear network d...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
Different types of macroscopic reaction kinetics can be derived from microscopic molecular interacti...
In the context of (bio)chemical reaction networks, the dynamics of the concentrations of the chemica...
The aim of this thesis is to improve the understanding of signaling pathways through a theoretical s...
Motivated by recent progress on the interplay between graph theory, dynamics, and systems theory, we...
In biological cells, chemical reaction pathways lead to complex network systems like metabolic netwo...
This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace g...
A new discipline of “systems chemistry” is emerging, which aims to capture the complexity observed i...
Motivated by recent progress on the interplay between graph theory, dynamics, and systems theory, we...
Many recent studies on Chemical Reaction Network Theory indicate that there is a renewed interest in...
In biological organisms, networks of chemical reactions control the processing of information in a c...