Effect of Confinement on Structural Relaxation in Ultrathin Polymer Films Investigated by Local Dielectric Spectroscopy

Citations Over TimeTop 10% of 2011 papers

Abstract

The effect of confinement on structural relaxation in ultrathin poly(vinyl acetate) films has been studied by local dielectric spectroscopy. This scanning probe method allows the investigation of dielectric relaxation at nanometer scale of supported ultrathin films having a free surface. Measurements have been performed at ambient pressure and controlled atmosphere on films with decreasing thickness. A deviation of dynamic properties from the bulk behavior, showing up as an increase of the relaxation rate, was observed starting from film thickness of 35 nm, which corresponds to about 3 times the gyration radius of polymer chains. A 2-fold increase of relaxation rate was measured for the thinnest investigated film of 18 nm. Local dielectric spectroscopy is therefore an effective method to elucidate confinement effects on relaxation dynamics in ultrathin polymer films with a free upper surface.

Related Papers

• Study on PMMA performace by nanometre SiO_2 modified(2004)
• Study on Epoxy Resin by Nanometer CaCC_3 Modified(2004)
• Modification of Nanometer TiO_2 and Research Progress in the Application of Nanometer TiO_2 in the Leather Industry(2013)
• DEVELOPMENT OF NANOMETER V_2O_5 CATALYST(2002)
• Effect of nanometer-silica on UV curable dispersing system and nanometer-composites(2003)