Graph Theory is a branch of mathematics that has a wealth of applications to other science and engineering disciplines, specifically Chemistry. The primary application of graphs to Chemistry is related to understanding of structure and symmetry at the molecular level. By projecting a molecule to the plane and examining it as a graph, a lot can be learned about the underlying molecular structure of a given compound. Using concepts of Graph Theory this masters project examines the underlying structures of two specific families of compounds, fullerenes and zeolites, from a chemical and mathematical perspective
The field of chemical graph theory utilizes simple graphs as models of molecules. These models are c...
In the thesis we concentrate to the part of graph theory that can be applied in chemistry. One of th...
Graph theory plays a vital role in modeling and designing any chemical structure or chemical network...
Graph Theory is one branch of Mathematics that laid the foundations of the structural studies in Che...
© 2013 Mottaghi and Ashrafi; licensee Beilstein-Institut. License and terms: see end of document. A ...
Fullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentagonal faces, while all o...
Fullerenes are carbonmolecules that form polyhedral cages. Their bond structures are exactly the pla...
International audienceFullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentago...
A molecular graph M is a simple graph in which atoms and chemical bonds are the vertices and edges o...
The development of chemical applications of graph theory is reviewed from a personal perspective. Gr...
Topology is the study of deformations of geometric figures. Chemistry is the study of molecular stru...
In recent years conjugated molecules have been intensely studied by means of graph theory1 and a num...
The total n-electron energy and chemical stability of conjugated hydrocarbons are discussed using th...
The central theme of the present book is zigzags and central-circuits of three- or four-regular plan...
Chemical graph theory began as a way for mathematicians to bring together the areas of the Physical ...
The field of chemical graph theory utilizes simple graphs as models of molecules. These models are c...
In the thesis we concentrate to the part of graph theory that can be applied in chemistry. One of th...
Graph theory plays a vital role in modeling and designing any chemical structure or chemical network...
Graph Theory is one branch of Mathematics that laid the foundations of the structural studies in Che...
© 2013 Mottaghi and Ashrafi; licensee Beilstein-Institut. License and terms: see end of document. A ...
Fullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentagonal faces, while all o...
Fullerenes are carbonmolecules that form polyhedral cages. Their bond structures are exactly the pla...
International audienceFullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentago...
A molecular graph M is a simple graph in which atoms and chemical bonds are the vertices and edges o...
The development of chemical applications of graph theory is reviewed from a personal perspective. Gr...
Topology is the study of deformations of geometric figures. Chemistry is the study of molecular stru...
In recent years conjugated molecules have been intensely studied by means of graph theory1 and a num...
The total n-electron energy and chemical stability of conjugated hydrocarbons are discussed using th...
The central theme of the present book is zigzags and central-circuits of three- or four-regular plan...
Chemical graph theory began as a way for mathematicians to bring together the areas of the Physical ...
The field of chemical graph theory utilizes simple graphs as models of molecules. These models are c...
In the thesis we concentrate to the part of graph theory that can be applied in chemistry. One of th...
Graph theory plays a vital role in modeling and designing any chemical structure or chemical network...