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Structural Relaxation Processes in Polyethylene Glycol/CCl4 Solutions by Brillouin Scattering (Articolo in rivista)
- Type
- Label
- Structural Relaxation Processes in Polyethylene Glycol/CCl4 Solutions by Brillouin Scattering (Articolo in rivista) (literal)
- Anno
- 2005-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.1021/jp045130z (literal)
- Alternative label
Pochylski M., Aliotta F., Blaszczak Z., Gapinski J. (2005)
Structural Relaxation Processes in Polyethylene Glycol/CCl4 Solutions by Brillouin Scattering
in The journal of physical chemistry. B
(literal)
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- Pochylski M., Aliotta F., Blaszczak Z., Gapinski J. (literal)
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- Istituto per I Processi Chimico Fisici del CNR, sezione di Messina,
DiVision of Optics, Department of Physics, Adam Mickiewicz UniVersity, Poland (literal)
- Titolo
- Structural Relaxation Processes in Polyethylene Glycol/CCl4 Solutions by Brillouin Scattering (literal)
- Abstract
- We present results of a Brillouin scattering experiment on solutions of poly(ethylene glycol) of mean molecular
mass 600 g/mol (PEG600) in CCl4. The relaxation process detected has been assigned to conformational
rearrangements of the polymeric chains, triggered by reorientation of the side groups. The concentration
dependencies of the hypersound velocity and normalized absorption are compared against the indications
from several models proposed in the literature. The concentration evolution of the system is described in
terms of two distinct regimes. At high polymer content, the system is dominated by the structure of the dense
polymer, where polymer-polymer interactions, together with excluded volume effects, induce the existence
of a preferred local arrangement resulting in a narrow distribution of the relaxation times, with the average
value of the relaxation time following a simple Arrhenius temperature dependence. As the concentration
decreases, the original structure of the hydrogen bonded polymer network is destroyed, and a number of
different local configuration coexist, giving rise to a wider distribution of relaxation times or to a multiple
relaxation. At low concentrations, the experimental data are well fitted assuming a Vogel-Fulker-Tammon
behavior for the average relaxation time. In addition, the observed deviation from the ideal behavior for the
refractive index and the density suggests that CCl4 does not behave as an inert solvent, and due to polarization
effects, it can develop local hetero-associated structures via electrostatic interaction with the O-H end groups
of the polymeric chains. The hypothesis has been successfully tested by fitting the concentration behavior of
the hypersonic velocity to a recent three-component model, suitable to describe the concentration dependence
of sound velocity in moderately interacting fluids. The indication of the model furnishes a very high value
for the association constant of the PEG600, confirming the literature indication that, in polymeric systems
capable of developing long liner aggregates via hydrogen bonding interaction, the Brillouin probe is insensitive
to the true length of the polymeric chains. The Brillouin scattering experiment just sees an effective hydrogen
bonded aggregate that is huge relative to the length of the single polymeric chain and becomes sensitive only
to the density fluctuations of the local segmental motions. (literal)
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