Add to ORKGThe gas phase adsorption of 118 organic molecules on graphite and graphene was studied by calculating their mole-cule-surface binding energies, Ecal*, using molecular mechanics MM2 parameters. Due to the general lack of reported experimental binding energy values for organic molecules with graphene, E*(graphene), it was considered desirable to have a simple but effective method to estimate these values. Calculated binding energy values using a three-layer model, Ecal*(3), were compared and correlated to published experimental values for graphitic surfaces, E*(graphite). Pub-lished values of experimental binding energies for graphite, E*(graphite), were available from gas-solid chromatogram-phy in the Henry’s Law region over a range of tempe...
We develop a model that predicts the potential energy function W(R) of a spherical fullerene, C(N), ...
Film growth is characterized by the making and breaking of chemical bonds. Other interactions such a...
Computer simulations of the structures and energies of benzene films on graphite at 298 K are report...
Understanding the energetics of molecular adsorption at nanostructured carbon materials opens up to ...
International audienceDetailed interaction potential energy calculations are performed to determine ...
Understanding strength and nature of noncovalent binding to surfaces imposes significant challenge b...
The large surfaces of two-dimensional carbon-based materials, such as graphene and fluorographene,ar...
AbstractThe large surfaces of two-dimensional carbon-based materials, such as graphene and fluorogra...
The interactions of polar molecules with various orientations on graphite surface are calculated emp...
This thesis contains the results of molecular dynamics simulations of molecule-surface interactions,...
This thesis contains the results of molecular dynamics simulations of molecule-surface interactions,...
Graphene is a strong, single atom-thick, lightweight, anti-corrosive, high surface area, low electri...
We present a combined experimental and theoretical quantification of the adsorption enthalpies of se...
Exposed surfaces of two-dimensional (2D) materials are susceptible to the adsorption of various mole...
We present a combined experimental and theoretical study aimed at understanding the behavior of pola...
We develop a model that predicts the potential energy function W(R) of a spherical fullerene, C(N), ...
Film growth is characterized by the making and breaking of chemical bonds. Other interactions such a...
Computer simulations of the structures and energies of benzene films on graphite at 298 K are report...
Understanding the energetics of molecular adsorption at nanostructured carbon materials opens up to ...
International audienceDetailed interaction potential energy calculations are performed to determine ...
Understanding strength and nature of noncovalent binding to surfaces imposes significant challenge b...
The large surfaces of two-dimensional carbon-based materials, such as graphene and fluorographene,ar...
AbstractThe large surfaces of two-dimensional carbon-based materials, such as graphene and fluorogra...
The interactions of polar molecules with various orientations on graphite surface are calculated emp...
This thesis contains the results of molecular dynamics simulations of molecule-surface interactions,...
This thesis contains the results of molecular dynamics simulations of molecule-surface interactions,...
Graphene is a strong, single atom-thick, lightweight, anti-corrosive, high surface area, low electri...
We present a combined experimental and theoretical quantification of the adsorption enthalpies of se...
Exposed surfaces of two-dimensional (2D) materials are susceptible to the adsorption of various mole...
We present a combined experimental and theoretical study aimed at understanding the behavior of pola...
We develop a model that predicts the potential energy function W(R) of a spherical fullerene, C(N), ...
Film growth is characterized by the making and breaking of chemical bonds. Other interactions such a...
Computer simulations of the structures and energies of benzene films on graphite at 298 K are report...