Title: Measuring the spatial distribution of dielectric constants in polymers through quasi-single molecule microscopy.

Authors: Hess, Chelsea M; Riley, Erin A; Palos-Chávez, Jorge; Reid, Philip J

Published In J Phys Chem B, (2013 Jun 13)

Abstract: The variation in dielectric constant is measured for thin films of poly(methyl methacrylate) (PMMA) and poly(vinylidene fluoride) (PVDF) using confocal fluorescence microscopy. Spatial variation in the local dielectric constant of the polymer films on the ~250 nm length scale is measured using the solvochromatic emission from incorporated nile red (NR) at "quasi-single molecule" (10(-7) M) and true single molecule (SM) concentrations (10(-9) M). Correlation of the NR fluorescence wavelength maximum with dielectric constant is used to transform images of NR's emission maxima to spatial variation in local dielectric constant. We demonstrate that the distributions of dielectric environments measured in the quasi- and true SM approaches are equivalent; however, the enhanced signal rates present in the quasi-SM approach result in this technique being more efficient. In addition, the quasi-SM technique reports directly on the continuous spatial variation in dielectric constant, information that is difficult to obtain in true SM studies. With regards to the polymers of interest, the results presented here demonstrate that a limited distribution of dielectric environments is present in PMMA; however, a broad distribution of environments exists in PVDF consistent with this polymer existing as a distribution of structural phases.

PubMed ID: 23735049

MeSH Terms: Microscopy, Confocal; Oxazines/chemistry; Polymethyl Methacrylate/chemistry*; Polyvinyls/chemistry*; Thermodynamics