The conversion and utilization of CO2 are not only an important research subject in C, chemistry, but also of great significance in pollution control. It is generally accepted that CO2- adspecies on metal surfaces as an activated adsorption state of CO2 is a pivotal intermediate in the process of CO2 activation. The adsorption energy of CO2- and the energy barrier of various pathways of CO2 activation on Cu (111), Pd(111), Fc(111) and Ni(111) surfaces have been predicted by using the UBI-QEP(Unity bond index-quadratic exponential potential) method. The theoretical results show that the stability of COT adsorbed on the above four transition metal surfaces follows the order: Fe (111) > Ni (111) > Cu (111) > Pd (111). CO2- surface species can ...
By the means of density functional theory calculations, we find that CO<sub>2</sub> activation via r...
The adsorption of CO2 on Ni(110) surface is simulated within the framework of density functional the...
Converting carbon dioxide (CO2) into liquid fuels and synthesis gas is a world-wide priority. But th...
CO2 has a potentially bright future as a carbon resource because it is very cheap and abundant. The ...
Adsorption and dissociation processes of gas molecules on bulk materials and nanomaterials are essen...
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 ...
The chemistry of carbon dioxide has recently become of great interest both for technological and env...
CO<sub>2</sub> has a potentially bright future as a carbon resource because it is very cheap and abu...
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...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
AbstractDensity functional theory calculations have been performed to investigate the structural, el...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
The adsorption of H, CO2, HCOO, O and CO on copper monolayers and submonolayers supported on hexagon...
By the means of density functional theory calculations, we find that CO<sub>2</sub> activation via r...
The adsorption of CO2 on Ni(110) surface is simulated within the framework of density functional the...
Converting carbon dioxide (CO2) into liquid fuels and synthesis gas is a world-wide priority. But th...
CO2 has a potentially bright future as a carbon resource because it is very cheap and abundant. The ...
Adsorption and dissociation processes of gas molecules on bulk materials and nanomaterials are essen...
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 ...
The chemistry of carbon dioxide has recently become of great interest both for technological and env...
CO<sub>2</sub> has a potentially bright future as a carbon resource because it is very cheap and abu...
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...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
AbstractDensity functional theory calculations have been performed to investigate the structural, el...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
The adsorption of H, CO2, HCOO, O and CO on copper monolayers and submonolayers supported on hexagon...
By the means of density functional theory calculations, we find that CO<sub>2</sub> activation via r...
The adsorption of CO2 on Ni(110) surface is simulated within the framework of density functional the...
Converting carbon dioxide (CO2) into liquid fuels and synthesis gas is a world-wide priority. But th...