Add to ORKGWe describe work in our laboratory that has shed new light on nucleation, growth, and relaxation processes in thin metal films. The progress comes from the synergistic and synchronous implementation of theory and experiment, which reveals surprising secrets hidden a very simple model system
Exposure of Ag/Ag(100) thin films to molecular oxygen (O2) at 220–250 K is shown to activate low-tem...
We illustrate the utility of the ‘‘mean‐field’’ rate equation treatment of nucleation and growth wit...
doi:10.1063/1.2779097 http://scitation.aip.org/getpdf/servlet/GetPDFServlet...
We describe work in our laboratory that has shed new light on nucleation, growth, and relaxation pro...
Part of the Mathematics Commons, and the Physical Chemistry Commons The complete bibliographic infor...
A unified analysis is presented of submonolayer nucleation and growth of two-dimensional islands and...
We present a different mechanism to explain the occurrence of long-lived oscillations in diffraction...
Thin films are often grown away from thermodynamic equilibrium and their morphology becomes determin...
Molecular dynamics simulations are a valuable tool for understanding thin film growth since individu...
Ce travail porte sur la compréhension des mécanismes de nucléation-croissance et le développement de...
Ag(100) homoepitaxy constitutes one of the simplest systems in which to study thin-film growth. Yet ...
Scanning-tunneling microscopy studies combined with atomistic modeling for Ag/Ag(100) homoepitaxy re...
Thin films are nanoscale layers of material used to functionalize surfaces or to serve as building b...
A model for metal (100) homoepitaxy is developed which describes irreversible submonolayer nucleatio...
The growth, structure, and thermal stability of ultra-thin metal films is investigated using surface...
Exposure of Ag/Ag(100) thin films to molecular oxygen (O2) at 220–250 K is shown to activate low-tem...
We illustrate the utility of the ‘‘mean‐field’’ rate equation treatment of nucleation and growth wit...
doi:10.1063/1.2779097 http://scitation.aip.org/getpdf/servlet/GetPDFServlet...
We describe work in our laboratory that has shed new light on nucleation, growth, and relaxation pro...
Part of the Mathematics Commons, and the Physical Chemistry Commons The complete bibliographic infor...
A unified analysis is presented of submonolayer nucleation and growth of two-dimensional islands and...
We present a different mechanism to explain the occurrence of long-lived oscillations in diffraction...
Thin films are often grown away from thermodynamic equilibrium and their morphology becomes determin...
Molecular dynamics simulations are a valuable tool for understanding thin film growth since individu...
Ce travail porte sur la compréhension des mécanismes de nucléation-croissance et le développement de...
Ag(100) homoepitaxy constitutes one of the simplest systems in which to study thin-film growth. Yet ...
Scanning-tunneling microscopy studies combined with atomistic modeling for Ag/Ag(100) homoepitaxy re...
Thin films are nanoscale layers of material used to functionalize surfaces or to serve as building b...
A model for metal (100) homoepitaxy is developed which describes irreversible submonolayer nucleatio...
The growth, structure, and thermal stability of ultra-thin metal films is investigated using surface...
Exposure of Ag/Ag(100) thin films to molecular oxygen (O2) at 220–250 K is shown to activate low-tem...
We illustrate the utility of the ‘‘mean‐field’’ rate equation treatment of nucleation and growth wit...
doi:10.1063/1.2779097 http://scitation.aip.org/getpdf/servlet/GetPDFServlet...