We performed a combined experimental and theoretical study of CO2 adsorption on the Ni(110) surface with the aim of understanding the details of the molecule-surface interaction, thus identifying the adsorption sites and evaluating the relevant energy barriers in the adsorption and in the diffusion processes. In this contribution we mainly focus on the results of numerical simulations, performed within the framework of density functional theory using ab-initio pseudopotentials. We discuss the results obtained together with experimental data
The interaction of CO2 with the Sn cations and the bridging oxygen anions sites of the SnO2(110) sur...
Density function theory has been used to describe the adsorption of C, O and CO on a Ni(111) surface...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
The adsorption of CO2 on Ni(110) surface is simulated within the framework of density functional the...
The chemistry of carbon dioxide has recently become of great interest both for technological and env...
By means of a joint experimental and theoretical approach we provide the first single molecule imagi...
Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental u...
Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental u...
Adsorption and dissociation processes of gas molecules on bulk materials and nanomaterials are essen...
In this work, the adsorption of CO onto the surface of the transition metal Ni at different coverage...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
The interaction of CO2 with the Sn cations and the bridging oxygen anions sites of the SnO2(110) sur...
Density function theory has been used to describe the adsorption of C, O and CO on a Ni(111) surface...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
The adsorption of CO2 on Ni(110) surface is simulated within the framework of density functional the...
The chemistry of carbon dioxide has recently become of great interest both for technological and env...
By means of a joint experimental and theoretical approach we provide the first single molecule imagi...
Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental u...
Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental u...
Adsorption and dissociation processes of gas molecules on bulk materials and nanomaterials are essen...
In this work, the adsorption of CO onto the surface of the transition metal Ni at different coverage...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
The interaction of CO2 with the Sn cations and the bridging oxygen anions sites of the SnO2(110) sur...
Density function theory has been used to describe the adsorption of C, O and CO on a Ni(111) surface...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...