Add to ORKGThe free surface of molten nanofilms is known to undergo spontaneous formation of periodic protrusions when exposed to a large transverse thermal gradient. Early time measurements of the array pitch and growth rate in polymer melts confirm a formation process based on a long wavelength thermocapillary instability and not electrostatic attraction or acoustic phonon driven growth as previously believed. We find excellent agreement with theoretical predictions provided the nanofilm out-of-plane thermal conductivity is several times larger than bulk, an enhancement suggestive of polymer chain alignment
There has been significant interest during the past decade in developing methods for remote manipul...
Strong electric fields produce forces that can overcome the surface tension in thin liquid polymer f...
NanoImprint lithography by spontaneous polymer destabilization is an alternative toThermal NanoImpri...
The free surface of molten nanofilms is known to undergo spontaneous formation of periodic protrusio...
Molten polymer nanofilms subject to a large transverse thermal gradient can undergo a thermocapillar...
This doctoral thesis describes experimental work conducted as part of ongoing efforts to identify an...
Experiments by several groups during the past decade have shown that a molten polymer nanofilm subje...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
Liquid nanofilms exposed to a large transverse thermal gradient undergo an instability featuring an ...
Thermocapillary lithography, a continuous-relief patterning technique, is used to fabricate polymer ...
We observed the formation of regular nanoscale undulations on a polystyrene film when imprinted by a...
Conventional lithography excels in producing blocky structures but has difficulty producing out-of-p...
ABSTRACT: Thin polymer films have attracted attention because of both their broad range of applicati...
Adhesion of nanoparticles to polymer films plays a key role in various polymer technologies. Here we...
There has been significant interest during the past decade in developing methods for remote manipul...
Strong electric fields produce forces that can overcome the surface tension in thin liquid polymer f...
NanoImprint lithography by spontaneous polymer destabilization is an alternative toThermal NanoImpri...
The free surface of molten nanofilms is known to undergo spontaneous formation of periodic protrusio...
Molten polymer nanofilms subject to a large transverse thermal gradient can undergo a thermocapillar...
This doctoral thesis describes experimental work conducted as part of ongoing efforts to identify an...
Experiments by several groups during the past decade have shown that a molten polymer nanofilm subje...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
Liquid nanofilms exposed to a large transverse thermal gradient undergo an instability featuring an ...
Thermocapillary lithography, a continuous-relief patterning technique, is used to fabricate polymer ...
We observed the formation of regular nanoscale undulations on a polystyrene film when imprinted by a...
Conventional lithography excels in producing blocky structures but has difficulty producing out-of-p...
ABSTRACT: Thin polymer films have attracted attention because of both their broad range of applicati...
Adhesion of nanoparticles to polymer films plays a key role in various polymer technologies. Here we...
There has been significant interest during the past decade in developing methods for remote manipul...
Strong electric fields produce forces that can overcome the surface tension in thin liquid polymer f...
NanoImprint lithography by spontaneous polymer destabilization is an alternative toThermal NanoImpri...