Add to ORKGThe thermally activated intermixing in Ag/Au and Au/Ag bilayers supported on a Ru(001) substrate has been studied using the PAX-technique (photoemission of adsorbed xenon). It is found that the Ag/Au interface (on Ru) is thermally more stable than the Au/Ag interface. In the first case Ag atoms do not penetrate into the Au underlayer at 275 K, while in the second case Au atoms do penetrate into the Ag underlayer at this temperature. These investigations also represent a very successful model study which may be carried over the other metal/metal combination
We studied using x-ray photoelectron spectroscopy the deposition of Au, In, Ag and Al overlayers ont...
The formation of the Au/Ge interface at room temperature is followed for increasing Au coverages and...
Bimetallic alloys are increasingly used in heterogeneous catalysis. This interest is explained by th...
The thermally activated intermixing in Ag/Au and Au/Ag bilayers supported on a Ru(001) substrate has...
The thermally activated intermixing in Ag/Au and Au/Ag bilayers supported on a Ru(001) substrate has...
In the present study the thermal behavior of ultrathin Au films de-posited on different noble metal ...
The effects of Pd, Ni, Nb, and Ti interface layers on the thermal stability of Ag films were investi...
Pt‐Au multilayers deposited on a Si substrate were profiled with 2.5, 5, and 8 keV Ar+ ions in order...
Scanning tunnelling microscopy (STM), low energy ion scattering spectroscopy (LEIS), X-ray photoelec...
We report a study of 1,4-benzenedimethanethiol (BDMT) adsorption on the (111) surface of the noble m...
The growth, structure, and thermal stability of ultra-thin metal films is investigated using surface...
Ab initio electronic-structure calculations are performed for Au/Ag multilayers with small modulatio...
In this paper, we present a photoemission study of the interaction of Cu, Ag and Au with clean singl...
Adsorption of Au and Pd over bilayer SiO2/Ru(0001) has been investigated using scanning-probe micros...
We report a study of 1,4-benzenedimethanethiol (BDMT) adsorption on the (111) surface of the noble m...
We studied using x-ray photoelectron spectroscopy the deposition of Au, In, Ag and Al overlayers ont...
The formation of the Au/Ge interface at room temperature is followed for increasing Au coverages and...
Bimetallic alloys are increasingly used in heterogeneous catalysis. This interest is explained by th...
The thermally activated intermixing in Ag/Au and Au/Ag bilayers supported on a Ru(001) substrate has...
The thermally activated intermixing in Ag/Au and Au/Ag bilayers supported on a Ru(001) substrate has...
In the present study the thermal behavior of ultrathin Au films de-posited on different noble metal ...
The effects of Pd, Ni, Nb, and Ti interface layers on the thermal stability of Ag films were investi...
Pt‐Au multilayers deposited on a Si substrate were profiled with 2.5, 5, and 8 keV Ar+ ions in order...
Scanning tunnelling microscopy (STM), low energy ion scattering spectroscopy (LEIS), X-ray photoelec...
We report a study of 1,4-benzenedimethanethiol (BDMT) adsorption on the (111) surface of the noble m...
The growth, structure, and thermal stability of ultra-thin metal films is investigated using surface...
Ab initio electronic-structure calculations are performed for Au/Ag multilayers with small modulatio...
In this paper, we present a photoemission study of the interaction of Cu, Ag and Au with clean singl...
Adsorption of Au and Pd over bilayer SiO2/Ru(0001) has been investigated using scanning-probe micros...
We report a study of 1,4-benzenedimethanethiol (BDMT) adsorption on the (111) surface of the noble m...
We studied using x-ray photoelectron spectroscopy the deposition of Au, In, Ag and Al overlayers ont...
The formation of the Au/Ge interface at room temperature is followed for increasing Au coverages and...
Bimetallic alloys are increasingly used in heterogeneous catalysis. This interest is explained by th...