Add to ORKGWe present an analysis both of the nucleation and growth of two-dimensional (2D) islands or clusters during deposition of Ag on Ag(100) at 295 K and of the subsequent postdeposition equilibration of such island distributions at coverages below about 0.25 monolayer. Island formation during deposition is shown to be effectively irreversible, and the island density and size and separation distributions are characterized using a combination of scanning tunneling microscopy (STM) and high-resolution low-energy electron diffraction. Postdeposition coarsening of the adlayer is monitored via STM and is shown to be dominated typically by diffusion and subsequent coalescence of large 2D clusters rather than by Ostwald ripening. Tailored studies of su...
Growth shapes of Ag islands formed on Ag(111) during submonolayer deposition at different temperatur...
The reshaping of two-dimensional vacancy islands during coalescence has been studied experimentally ...
We used STM to study metal thin film growth processes. The following are main conclusions: (1) Large...
We present an analysis both of the nucleation and growth of two-dimensional (2D) islands or clusters...
We present a high-resolution low-energy electron diffraction study of two-dimensional island distrib...
A comprehensive Scanning Tunneling Microscopy (STM) study of submonolayer nucleation and growth of 2...
A comprehensive analysis of submonolayer and multilayer Ag films deposited on Ag(100) is performed. ...
We present a high-resolution low-energy electron diffraction study of two-dimensional island distrib...
Using scanning tunneling microscopy, we study the post-deposition coarsening of distributions of lar...
A comprehensive analysis of submonolayer and multilayer Ag films deposited on Ag(100) is performed. ...
Scanning tunneling microscopy experiments reveal the formation of a variety of geometrically exotic ...
Scanning tunneling microscopy is used to analyze the nanoscale morphology of 25 ML films of Ag depos...
Scanning tunneling microscopy shows that large two-dimensional Ag clusters on Ag(100) can diffuse. T...
Scanning tunneling microscopy is used to monitor the formation and relaxation of nanoprotrusions and...
We analyze the formation of two-dimensional Ag islands following deposition of about 0.1 ML of Ag on...
Growth shapes of Ag islands formed on Ag(111) during submonolayer deposition at different temperatur...
The reshaping of two-dimensional vacancy islands during coalescence has been studied experimentally ...
We used STM to study metal thin film growth processes. The following are main conclusions: (1) Large...
We present an analysis both of the nucleation and growth of two-dimensional (2D) islands or clusters...
We present a high-resolution low-energy electron diffraction study of two-dimensional island distrib...
A comprehensive Scanning Tunneling Microscopy (STM) study of submonolayer nucleation and growth of 2...
A comprehensive analysis of submonolayer and multilayer Ag films deposited on Ag(100) is performed. ...
We present a high-resolution low-energy electron diffraction study of two-dimensional island distrib...
Using scanning tunneling microscopy, we study the post-deposition coarsening of distributions of lar...
A comprehensive analysis of submonolayer and multilayer Ag films deposited on Ag(100) is performed. ...
Scanning tunneling microscopy experiments reveal the formation of a variety of geometrically exotic ...
Scanning tunneling microscopy is used to analyze the nanoscale morphology of 25 ML films of Ag depos...
Scanning tunneling microscopy shows that large two-dimensional Ag clusters on Ag(100) can diffuse. T...
Scanning tunneling microscopy is used to monitor the formation and relaxation of nanoprotrusions and...
We analyze the formation of two-dimensional Ag islands following deposition of about 0.1 ML of Ag on...
Growth shapes of Ag islands formed on Ag(111) during submonolayer deposition at different temperatur...
The reshaping of two-dimensional vacancy islands during coalescence has been studied experimentally ...
We used STM to study metal thin film growth processes. The following are main conclusions: (1) Large...