Add to ORKGWe have used temperature-programmed desorption in combination with specular and off-specular high resolution electron energy loss spectroscopy to study the interaction of H2O and D2O with the bare and hydrogen-covered Ni(111) surface. Our results for the bare metal surface agree with previous reports and we are able to relate two prominent features in vibrational spectra to nuclear motions at the surface. Pre-covering Ni(111) with hydrogen alters both adsorption and desorption of water significantly. The strong H-Ni bond does not allow for isotopic exchange with co-adsorbed D2O. Strong resemblance of desorption traces and vibrational spectra of submonolayer coverages on H-covered Ni(111) and multilayers on bare Ni(111) suggests that adsorpt...
Periodic DFT calculations using plane waves basis sets with the GGA formalism were performed in orde...
This thesis is devoted to spectroscopic studies of molecular hydrogen adsorbed on metal surfaces. Hy...
The mechanism of hydrogen oxidation reaction (HOR) in Ni(111) is well-known and it happens through V...
We have used temperature-programmed desorption in combination with specular and off-specular high re...
We have studied the surface coverage dependence of the co-adsorption of D and D2O on the Ni(111) sur...
We have used high resolution electron energy loss spectroscopy and temperature-programmed desorption...
As nickel and platinum are in the same group of the periodic table, the Ni(111) and Pt(111) surfaces...
The adsorption of water on Ni(110) has been studied by electron stimulated desorption ion angular di...
Hydroxyl (OH) is identified and characterized on the Ni(111) surface by high-resolution electron ene...
The binding of hydrogen on Ni(111) in the presence of an water is considered using both a bilayer an...
A combination of photoelectron spectroscopy, temperature programmed desorption and low energy electr...
The dissociation and formation of water on the Rh(111) and Ni(111) surfaces have been studied using ...
Abstract: The effect of carbon monoxide (CO) co-adsorption on the dissociation of water on the Ni(11...
Thesis: Ph. D. in Physical Chemistry, Massachusetts Institute of Technology, Department of Chemistry...
The effect of carbon monoxide (CO) co-adsorption on the dissociation of water on the Ni(111) surface...
Periodic DFT calculations using plane waves basis sets with the GGA formalism were performed in orde...
This thesis is devoted to spectroscopic studies of molecular hydrogen adsorbed on metal surfaces. Hy...
The mechanism of hydrogen oxidation reaction (HOR) in Ni(111) is well-known and it happens through V...
We have used temperature-programmed desorption in combination with specular and off-specular high re...
We have studied the surface coverage dependence of the co-adsorption of D and D2O on the Ni(111) sur...
We have used high resolution electron energy loss spectroscopy and temperature-programmed desorption...
As nickel and platinum are in the same group of the periodic table, the Ni(111) and Pt(111) surfaces...
The adsorption of water on Ni(110) has been studied by electron stimulated desorption ion angular di...
Hydroxyl (OH) is identified and characterized on the Ni(111) surface by high-resolution electron ene...
The binding of hydrogen on Ni(111) in the presence of an water is considered using both a bilayer an...
A combination of photoelectron spectroscopy, temperature programmed desorption and low energy electr...
The dissociation and formation of water on the Rh(111) and Ni(111) surfaces have been studied using ...
Abstract: The effect of carbon monoxide (CO) co-adsorption on the dissociation of water on the Ni(11...
Thesis: Ph. D. in Physical Chemistry, Massachusetts Institute of Technology, Department of Chemistry...
The effect of carbon monoxide (CO) co-adsorption on the dissociation of water on the Ni(111) surface...
Periodic DFT calculations using plane waves basis sets with the GGA formalism were performed in orde...
This thesis is devoted to spectroscopic studies of molecular hydrogen adsorbed on metal surfaces. Hy...
The mechanism of hydrogen oxidation reaction (HOR) in Ni(111) is well-known and it happens through V...