A01=Andrew V. Zeigarnik
A01=D.G. Bonchev
A01=Oleg N. Temkin
Algebraic Complements
Author_Andrew V. Zeigarnik
Author_D.G. Bonchev
Author_Oleg N. Temkin
Automorphism Group
Bond Order
Branched Chain Reaction
Category=PN
Category=PNK
Category=PNR
Chain Mechanism
Chemical Distance
chemical kinetics methods
Chemical Reaction Networks
chemical reactions
Common Subgraph
Complexity Index
Constructive Enumeration
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
graph theory
Graph Vertexes
Information Index
Kinetic Graph
Linear Mechanisms
Linear Networks
Linear Reaction
linear reaction networks
Maximum Common Subgraph
mechanistic theory
Mechanistic Topologies
Pendant Vertexes
Rate Law
Spanning Trees
Topological Index
Topological Structure
Unbalanced Mechanism
Vertex Labels
Product details
- ISBN 9780367448479
- Weight: 453g
- Dimensions: 156 x 234mm
- Publication Date: 02 Dec 2019
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Paperback
Secure
checkout
Fast Shipping
Easy returns
Over the last decade, increased attention to reaction dynamics, combined with the intensive application of computers in chemical studies, mathematical modeling of chemical processes, and mechanistic studies has brought graph theory to the forefront of research. It offers an advanced and powerful formalism for the description of chemical reactions and their intrinsic reaction mechanisms. Chemical Reaction Networks: A Graph-Theoretical Approach elegantly reviews and expands upon graph theory as applied to mechanistic theory, chemical kinetics, and catalysis.
The authors explore various graph-theoretical approaches to canonical representation, numbering, and coding of elementary steps and chemical reaction mechanisms, the analysis of their topological structure, the complexity estimation, and classification of reaction mechanisms. They discuss topologically distinctive features of multiroute catalytic and noncatalytic and chain reactions involving metal complexes.
With it's careful balance of clear language and mathematical rigor, the presentation of the authors' significant original work, and emphasis on practical applications and examples, Chemical Reaction Networks: A Graph Theoretical Approach is both an outstanding reference and valuable tool for chemical research.
Temkin\, Oleg N.; Zeigarnik\, Andrew V.; Bonchev\, D.G.
