Add to ORKGUsing density functional theory (DFT) calculations, the surface Gibbs free energy of methane and water adsorption on Pt(111), Ir(111), Ni(111), and Pd(111) surfaces was investigated. DFT computations were employed to investigate the adsorption of methane and water molecule on unit cells with varying coverage levels of 0.11, 0.25, 0.50, and 1.00 monolayers and the aggregation of H2O over clean transition metal surfaces. The adsorption configuration was assessed to experimental findings to evaluate our computational approaches' accuracy and reliability. A thermodynamic diagram was constructed for exploring the adsorption of CH4 and H2O on metal surfaces. The order of the methane adsorption energies on different metal surfaces is as follows: P...
The CH4 dissociation on the NiPd(111) surface is studied by using the density functional theory (DFT...
The hybrid QM:QM approach is extended to adsorption on transition metal surfaces. The random phase a...
In this work a comparative analysis between different Pt-Ru(111) surface models and pure Pt(111) sur...
The dissociative adsorption of methane on variously oxidized Pd, Pt, and Pd-Pt surfaces is investiga...
Quantum-mechanical Density Functional Theory (DFT) calculations were performed in order to study cat...
The dissociative adsorption of methane on variously oxidized Pd, Pt, and Pd-Pt surfaces is investiga...
A systematic density functional (DF) theory based study of methane (CH4) adsorption on the three low...
Methane dissociation and subsequent formation of water and carbon-dioxide over Pd and Pt are investi...
latinum is a noble metal that is widely used for the electrocatalytic production of hydrogen, but th...
Platinum is a noble metal that is widely used for the electrocatalytic production of hydrogen, but t...
Platinum is a noble metal that is widely used for the electrocatalytic production of hydrogen, but t...
We address the nature of the bond between water molecules and metal surfaces through a systematic de...
We present a density functional theory study of water adsorption on metal surfaces. Prototype water ...
The periodic four-layered model of the pure Cu(111) surface has been considered, and the effect of d...
Funding Information: This work was supported by Business Finland through project Molecular Modelling...
The CH4 dissociation on the NiPd(111) surface is studied by using the density functional theory (DFT...
The hybrid QM:QM approach is extended to adsorption on transition metal surfaces. The random phase a...
In this work a comparative analysis between different Pt-Ru(111) surface models and pure Pt(111) sur...
The dissociative adsorption of methane on variously oxidized Pd, Pt, and Pd-Pt surfaces is investiga...
Quantum-mechanical Density Functional Theory (DFT) calculations were performed in order to study cat...
The dissociative adsorption of methane on variously oxidized Pd, Pt, and Pd-Pt surfaces is investiga...
A systematic density functional (DF) theory based study of methane (CH4) adsorption on the three low...
Methane dissociation and subsequent formation of water and carbon-dioxide over Pd and Pt are investi...
latinum is a noble metal that is widely used for the electrocatalytic production of hydrogen, but th...
Platinum is a noble metal that is widely used for the electrocatalytic production of hydrogen, but t...
Platinum is a noble metal that is widely used for the electrocatalytic production of hydrogen, but t...
We address the nature of the bond between water molecules and metal surfaces through a systematic de...
We present a density functional theory study of water adsorption on metal surfaces. Prototype water ...
The periodic four-layered model of the pure Cu(111) surface has been considered, and the effect of d...
Funding Information: This work was supported by Business Finland through project Molecular Modelling...
The CH4 dissociation on the NiPd(111) surface is studied by using the density functional theory (DFT...
The hybrid QM:QM approach is extended to adsorption on transition metal surfaces. The random phase a...
In this work a comparative analysis between different Pt-Ru(111) surface models and pure Pt(111) sur...