AbstractWe explore the relationship between Kekulé structures and maximum face independence sets in fullerenes: plane trivalent graphs with pentagonal and hexagonal faces. For the class of leap-frog fullerenes, we show that a maximum face independence set corresponds to a Kekulé structure with a maximum number of benzene rings and may be constructed by partitioning the pentagonal faces into pairs and 3-coloring the faces with the exception of a very few faces along paths joining paired pentagons. We also obtain some partial results for non-leap-frog fullerenes
Fullerene graphs are 3-connected 3-regular planar graphs with only pentagonal and hexagonal faces. T...
AbstractIt is shown that every generalized fullerene graph G with 13 pentagons is 2-extendable, a br...
The independence number of the graph of a fullerene, the size of the largest set of vertices such th...
AbstractWe explore the relationship between Kekulé structures and maximum face independence sets in ...
AbstractWe explore the structure of the maximum vertex independence sets in fullerenes: plane trival...
Abstract. A fullerene is a trivalent (valency three), convex polyhedron with only convex pentagonal ...
Fullerene graphs are trivalent plane graphs with only hexagonal and pentagonal faces. They are often...
Fullerenes can be considered to be either molecules of pure carbon or the trivalent plane ...
Abstract. A fullerene graph is a cubic bridgeless plane graph with all faces of size 5 and 6. We sho...
A fullerene is a carbon molecule where each carbon atom is chemically bonded to three other carbon a...
Abstract. An operation on trivalent graphs leads from the truncated cube to buckminsterfullerene, an...
International audienceFullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentago...
A fullerene is a 3-regular plane graph consisting only of pentagonal and hexagonal faces. Fullerenes...
To the memory of Paul Erdos. Abstract. An operation on trivalent graphs leads from the truncated cub...
Graph theoretic fullerenes are designed to model large carbon molecules: each vertex represents a ca...
Fullerene graphs are 3-connected 3-regular planar graphs with only pentagonal and hexagonal faces. T...
AbstractIt is shown that every generalized fullerene graph G with 13 pentagons is 2-extendable, a br...
The independence number of the graph of a fullerene, the size of the largest set of vertices such th...
AbstractWe explore the relationship between Kekulé structures and maximum face independence sets in ...
AbstractWe explore the structure of the maximum vertex independence sets in fullerenes: plane trival...
Abstract. A fullerene is a trivalent (valency three), convex polyhedron with only convex pentagonal ...
Fullerene graphs are trivalent plane graphs with only hexagonal and pentagonal faces. They are often...
Fullerenes can be considered to be either molecules of pure carbon or the trivalent plane ...
Abstract. A fullerene graph is a cubic bridgeless plane graph with all faces of size 5 and 6. We sho...
A fullerene is a carbon molecule where each carbon atom is chemically bonded to three other carbon a...
Abstract. An operation on trivalent graphs leads from the truncated cube to buckminsterfullerene, an...
International audienceFullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentago...
A fullerene is a 3-regular plane graph consisting only of pentagonal and hexagonal faces. Fullerenes...
To the memory of Paul Erdos. Abstract. An operation on trivalent graphs leads from the truncated cub...
Graph theoretic fullerenes are designed to model large carbon molecules: each vertex represents a ca...
Fullerene graphs are 3-connected 3-regular planar graphs with only pentagonal and hexagonal faces. T...
AbstractIt is shown that every generalized fullerene graph G with 13 pentagons is 2-extendable, a br...
The independence number of the graph of a fullerene, the size of the largest set of vertices such th...