Add to ORKGThe adsorption of a phenol molecule on a Ni(111) surface is studied by employing an ab initio DFT approach. Adsorption energies and geometries at each surface high symmetry site are determined and compared with the analogous case of benzene. Adsorption at the bridge site, with C-C bond along the [(2) over bar 11] direction, is found to be the most energetically favorable. Application of the current results to a multiscale modeling of polycarbonates interacting with a metal surface is briefly discussed
The adsorption of a molecule at a surface is a fundamental step in a wide variety of industrially re...
Unsaturated fatty acids have great interest by their activities as industrial materials in novel app...
We present a dual-resolution coarse-graining scheme for efficient molecular dynamics simulations of ...
The adsorption of a phenol molecule on a Ni(111) surface is studied by employing an ab initio DFT ap...
In this work, the adsorption of CO onto the surface of the transition metal Ni at different coverage...
In this work, the adsorption of CO onto the surface of the transition metal Ni at different coverage...
In the present work, the Atom Superposition and Electron Delocalization method has been applied in o...
The adsorption of phenol and phenoxy on the (111) surface of Au and Pt has been investigated by dens...
The CH4 dissociation on the NiPd(111) surface is studied by using the density functional theory (DFT...
The adsorption of phenol and phenoxy on the (111) surface of Au and Pt has been investigated by dens...
Quantitative structure determinations using scanned- energy mode photoelectron diffraction are prese...
The adsorption of benzene on the Cu(111), Ag(111), Au(111), and Cu(110) surfaces at low coverage is ...
The adsorption of CN on Cu(111), Ni(111) and Ni(100) has been investigated using density functional ...
The density functional theory (DFT) and the cluster approach were used to get information concerning...
The adsorption of a molecule at a surface is a fundamental step in a wide variety of industrially re...
The adsorption of a molecule at a surface is a fundamental step in a wide variety of industrially re...
Unsaturated fatty acids have great interest by their activities as industrial materials in novel app...
We present a dual-resolution coarse-graining scheme for efficient molecular dynamics simulations of ...
The adsorption of a phenol molecule on a Ni(111) surface is studied by employing an ab initio DFT ap...
In this work, the adsorption of CO onto the surface of the transition metal Ni at different coverage...
In this work, the adsorption of CO onto the surface of the transition metal Ni at different coverage...
In the present work, the Atom Superposition and Electron Delocalization method has been applied in o...
The adsorption of phenol and phenoxy on the (111) surface of Au and Pt has been investigated by dens...
The CH4 dissociation on the NiPd(111) surface is studied by using the density functional theory (DFT...
The adsorption of phenol and phenoxy on the (111) surface of Au and Pt has been investigated by dens...
Quantitative structure determinations using scanned- energy mode photoelectron diffraction are prese...
The adsorption of benzene on the Cu(111), Ag(111), Au(111), and Cu(110) surfaces at low coverage is ...
The adsorption of CN on Cu(111), Ni(111) and Ni(100) has been investigated using density functional ...
The density functional theory (DFT) and the cluster approach were used to get information concerning...
The adsorption of a molecule at a surface is a fundamental step in a wide variety of industrially re...
The adsorption of a molecule at a surface is a fundamental step in a wide variety of industrially re...
Unsaturated fatty acids have great interest by their activities as industrial materials in novel app...
We present a dual-resolution coarse-graining scheme for efficient molecular dynamics simulations of ...