Add to ORKGWe consider a classical mechanics approach to atomic displacements in fullerene molecules. The problem is reduced to the study of the graph Laplacian spectra by deriving an analytical expression for the atomic displacement due to thermal vibrations/oscillations. We then use the concepts of graph isoperimetric constant and graph expansion to prove that "among all graphs on n nodes, those with good expansion properties display the smallest topological displacements of their nodes." Consequently, fullerenes with the property of being Ramanujan graphs, i.e., Ramafullerenes, are those that exhibit the smallest atomic displacements due to thermal movement. We show that fullerenes with the smallest atomic perturbations due to thermal effects are t...
A fullerene is a carbon molecule where each carbon atom is chemically bonded to three other carbon a...
© 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...
We consider a classical mechanics approach to atomic displacements in fullerene molecules. The probl...
Abstract The recently developed idea of analyzing complex networks in terms of node displacement due...
The study of nanostructures’ vibrational properties is at the core of nanoscience research. They are...
A general and convenient method is described by which one can obtain the point group, the 13C NMR pa...
A molecular graph M is a simple graph in which atoms and chemical bonds are the vertices and edges o...
International audienceFullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentago...
This Letter considers a molecular mechanics approach for the vibration spectra analysis of fullerene...
The energy of a molecular graph G is defined as the summation of the absolute values of the eigenval...
We investigated graphene structures grafted with fullerenes. The size of the graphene sheets ranges ...
Fullerene graphs are 3-connected 3-regular planar graphs with only pentagonal and hexagonal faces. T...
The independence number of the graph of a fullerene, the size of the largest set of vertices such th...
In this dissertation, statics and dynamics of defects in fullerenes and carbon nanotubes are studied...
A fullerene is a carbon molecule where each carbon atom is chemically bonded to three other carbon a...
© 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...
We consider a classical mechanics approach to atomic displacements in fullerene molecules. The probl...
Abstract The recently developed idea of analyzing complex networks in terms of node displacement due...
The study of nanostructures’ vibrational properties is at the core of nanoscience research. They are...
A general and convenient method is described by which one can obtain the point group, the 13C NMR pa...
A molecular graph M is a simple graph in which atoms and chemical bonds are the vertices and edges o...
International audienceFullerene graphs are cubic, 3-connected, planar graphs with exactly 12 pentago...
This Letter considers a molecular mechanics approach for the vibration spectra analysis of fullerene...
The energy of a molecular graph G is defined as the summation of the absolute values of the eigenval...
We investigated graphene structures grafted with fullerenes. The size of the graphene sheets ranges ...
Fullerene graphs are 3-connected 3-regular planar graphs with only pentagonal and hexagonal faces. T...
The independence number of the graph of a fullerene, the size of the largest set of vertices such th...
In this dissertation, statics and dynamics of defects in fullerenes and carbon nanotubes are studied...
A fullerene is a carbon molecule where each carbon atom is chemically bonded to three other carbon a...
© 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...