Add to ORKGWe tested the reactivity of an Au surface against H2 and compared the reactivity with Ag, Cu, and Pt surfaces. The reactivity is represented by the H2 dissociation energy over each surface. Their dissociation energies were calculated based on DFT calculation with PBE functional and PAW pseudopotential. The calculation results show that the Pt surface is the most reactive, followed by the Cu, Ag, and Au surfaces. PDOS illustrates the d-band center is above Fermi level only on the Pt surface which indicates that it is the most reactive towards H2. While the adsorbate charge shows that Cu donates the most electrons, trailed by Ag and Au. This review concludes that Au surface is the most inert among the other three metals. This inertness is a c...
We suggest that the reactivity of Au nanocatalysts can be greatly increased by doping the oxide subs...
Funding Information: This work was supported by Business Finland through project Molecular Modelling...
Bulk gold is the most inert metal of all, however, when gold is finely dispersed on a support, it ca...
The nobleness of gold surfaces has been appreciated since long before the beginning of recorded hist...
In this chapter, experimental and theoretical studies on surface segregation in Ag-Au systems, inclu...
The adsorption energies and the activation energy barriers for a series of reactions catalyzed by go...
The reactivity of the Pt/Au(332) surface was studied using high-resolution photoelectron spectroscop...
The reactivity of the Pt/Au(332) surface was studied using high-resolution photoelectron spectroscop...
Montemore, Matthew/0000-0002-4157-1745WOS: 000529225800041Gold and gold-silver alloys can be active ...
The reactivity of the Pt/Au(332) surface was studied using high-resolution photoelectron spectroscop...
Au based catalysts have been extensively studied since Masatake Haruta in Japan discovered that smal...
We calculate the energetics of CO oxidation on extended surfaces of particular structures chosen to ...
ABSTRACT: Density functional theory (DFT) studies of mercury oxidation on Au(111) are conducted to d...
Gold, the archetypal noble metal, is usually associated with an inhibition of surface reactivity by ...
The low-index surfaces of Au and Pt all tend to reconstruct, a fact that is of key importance in man...
We suggest that the reactivity of Au nanocatalysts can be greatly increased by doping the oxide subs...
Funding Information: This work was supported by Business Finland through project Molecular Modelling...
Bulk gold is the most inert metal of all, however, when gold is finely dispersed on a support, it ca...
The nobleness of gold surfaces has been appreciated since long before the beginning of recorded hist...
In this chapter, experimental and theoretical studies on surface segregation in Ag-Au systems, inclu...
The adsorption energies and the activation energy barriers for a series of reactions catalyzed by go...
The reactivity of the Pt/Au(332) surface was studied using high-resolution photoelectron spectroscop...
The reactivity of the Pt/Au(332) surface was studied using high-resolution photoelectron spectroscop...
Montemore, Matthew/0000-0002-4157-1745WOS: 000529225800041Gold and gold-silver alloys can be active ...
The reactivity of the Pt/Au(332) surface was studied using high-resolution photoelectron spectroscop...
Au based catalysts have been extensively studied since Masatake Haruta in Japan discovered that smal...
We calculate the energetics of CO oxidation on extended surfaces of particular structures chosen to ...
ABSTRACT: Density functional theory (DFT) studies of mercury oxidation on Au(111) are conducted to d...
Gold, the archetypal noble metal, is usually associated with an inhibition of surface reactivity by ...
The low-index surfaces of Au and Pt all tend to reconstruct, a fact that is of key importance in man...
We suggest that the reactivity of Au nanocatalysts can be greatly increased by doping the oxide subs...
Funding Information: This work was supported by Business Finland through project Molecular Modelling...
Bulk gold is the most inert metal of all, however, when gold is finely dispersed on a support, it ca...