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A β-NMR study of the depth, temperature, and molecular-weight dependence of secondary dynamics in polystyrene: Entropy-enthalpy compensation and dynamic gradients near the free surface.
- Source :
-
The Journal of chemical physics [J Chem Phys] 2022 Feb 28; Vol. 156 (8), pp. 084903. - Publication Year :
- 2022
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Abstract
- We investigated the depth, temperature, and molecular-weight (MW) dependence of the γ-relaxation in polystyrene glasses using implanted <superscript>8</superscript> Li <superscript>+</superscript> and β-detected nuclear magnetic resonance. Measurements were performed on thin films with MW ranging from 1.1 to 641 kg/mol. The temperature dependence of the average <superscript>8</superscript> Li spin-lattice relaxation time (T <subscript>1</subscript> <superscript>avg</superscript> ) was measured near the free surface and in the bulk. Spin-lattice relaxation is caused by phenyl ring flips, which involve transitions between local minima over free-energy barriers with enthalpic and entropic contributions. We used transition state theory to model the temperature dependence of the γ-relaxation, and hence T <subscript>1</subscript> <superscript>avg</superscript> . There is no clear correlation of the average entropy of activation (Δ <superscript>‡</superscript> S̄) and enthalpy of activation (Δ <superscript>‡</superscript> H̄) with MW, but there is a clear correlation between Δ <superscript>‡</superscript> S̄ and Δ <superscript>‡</superscript> H̄, i.e., entropy-enthalpy compensation. This results in the average Gibbs energy of activation, Δ <superscript>‡</superscript> Ḡ, being approximately independent of MW. Measurements of the temperature dependence of T <subscript>1</subscript> <superscript>avg</superscript> as a function of depth below the free surface indicate the inherent entropic barrier, i.e., the entropy of activation corresponding to Δ <superscript>‡</superscript> H̄ = 0, has an exponential dependence on the distance from the free surface before reaching the bulk value. This results in Δ <superscript>‡</superscript> Ḡ near the free surface being lower than the bulk. Combining these observations results in a model where the average fluctuation rate of the γ-relaxation has a "double-exponential" depth dependence. This model can explain the depth dependence of 1/T <subscript>1</subscript> <superscript>avg</superscript> in polystyrene films. The characteristic length of enhanced dynamics is ∼6 nm and approximately independent of MW near room temperature.
Details
- Language :
- English
- ISSN :
- 1089-7690
- Volume :
- 156
- Issue :
- 8
- Database :
- MEDLINE
- Journal :
- The Journal of chemical physics
- Publication Type :
- Academic Journal
- Accession number :
- 35232192
- Full Text :
- https://doi.org/10.1063/5.0081185