Add to ORKGWe have studied the liquid-like response of the surface of vapour-deposited glassy films of polystyrene to the introduction of gold nanoparticles on the surface. The build-up of polymer material was measured as a function of time and temperature for both as-deposited films, as well as films that have been rejuvenated to become normal glasses cooled from the equilibrium liquid. The temporal evolution of the surface profile is well described by the characteristic power law of capillary-driven surface flows. In all cases, the surface evolution of the as-deposited films and the rejuvenated films are enhanced compared to bulk and are not easily distinguishable from each other. The temperature dependence of the measured relaxation times determine...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
Measurements of the surface self-diffusion coefficients of glass-forming small molecules, indomethac...
We have used a quartz crystal microbalance to monitor the adhesion of small particles to the surface...
We present a comprehensive study of gold nanoparticle embedding into polystyrene (PS) surfaces at te...
We present a detailed study of free polymer surfaces and their effects on the measured glass transit...
Most polymers solidify into a glassy amorphous state, accompanied by a rapid increase in the viscosi...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
Most studies of the dynamics at the surface and in thin films of polystyrene (PS) are focused on the...
Stable glasses are formed during physical vapor deposition (PVD), through the surface-mediated equil...
ABSTRACT: In general, the relaxation of polymers from a nonequilibrium state will occur only if the ...
We review the recent activity aiming to clarify glassy dynamics in nanostructured polymer glasses, i...
The structure and dynamics of polymer melts in the proximity of a solid substrate was investigated. ...
The dynamics of thin polymer films display many differences from the bulk dynamics. Different modes ...
In this article, we investigate the glass transition in polystyrene melts and free-standing ultra-th...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
Measurements of the surface self-diffusion coefficients of glass-forming small molecules, indomethac...
We have used a quartz crystal microbalance to monitor the adhesion of small particles to the surface...
We present a comprehensive study of gold nanoparticle embedding into polystyrene (PS) surfaces at te...
We present a detailed study of free polymer surfaces and their effects on the measured glass transit...
Most polymers solidify into a glassy amorphous state, accompanied by a rapid increase in the viscosi...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
Most studies of the dynamics at the surface and in thin films of polystyrene (PS) are focused on the...
Stable glasses are formed during physical vapor deposition (PVD), through the surface-mediated equil...
ABSTRACT: In general, the relaxation of polymers from a nonequilibrium state will occur only if the ...
We review the recent activity aiming to clarify glassy dynamics in nanostructured polymer glasses, i...
The structure and dynamics of polymer melts in the proximity of a solid substrate was investigated. ...
The dynamics of thin polymer films display many differences from the bulk dynamics. Different modes ...
In this article, we investigate the glass transition in polystyrene melts and free-standing ultra-th...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
Measurements of the surface self-diffusion coefficients of glass-forming small molecules, indomethac...
We have used a quartz crystal microbalance to monitor the adhesion of small particles to the surface...