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Neutron spin echo investigation of the concentration fluctuation dynamics in melts of diblock copolymers

JOURNAL OF CHEMICAL PHYSICS. Bd. 110. H. 20. MELVILLE: AMER INST PHYSICS 1999 S. 10188 - 10202

Erscheinungsjahr: 1999

ISBN/ISSN: 0021-9606

Publikationstyp: Zeitschriftenaufsatz

Sprache: Englisch

Doi/URN: 10.1063/1.478891

Volltext über DOI/URN

Inhaltszusammenfassung


Diblock copolymers in the melt exhibit order-disorder phase transitions (ODT), which are accompanied by strong concentration fluctuations. These transitions are generally described in terms of the random phase approximation (RPA) of Leibler and Fredrickson, which is able to explain small angle scattering results in the neighborhood of the ODT, in particular around the correlation peak at q*. The RPA theory has been extended to include dynamical phenomena, predicting the short time relaxation ...Diblock copolymers in the melt exhibit order-disorder phase transitions (ODT), which are accompanied by strong concentration fluctuations. These transitions are generally described in terms of the random phase approximation (RPA) of Leibler and Fredrickson, which is able to explain small angle scattering results in the neighborhood of the ODT, in particular around the correlation peak at q*. The RPA theory has been extended to include dynamical phenomena, predicting the short time relaxation of the dynamic structure factor in polymeric multicomponent systems. We report small angle neutron scattering and neutron spin echo experiments on polyethylene-block-polyethylethylene (PE-PEE) and poly(ethylene-propylene)-block-polyethylethylene (PEP-PEE) copolymers with molecular weights of 16.500 and 68.000 g/mol, which explore the structure and dynamics of these block copolymers. Studying melts with different hydrogen/deuterium labeling it was possible to observe experimentally the different relaxation modes of such systems separately. In particular the collective relaxation behavior as well as the single chain motion were accessed. The experimental results were quantitatively compared with the RPA predictions, which were based solely on the dynamical properties of the corresponding homopolymers and the static structure factors. The collective dynamics exhibits an unanticipated fast relaxation mode. This mode is most visible at low wave numbers (q greater than or equal to q*) but extends to length scales considerably shorter than the radius of gyration. Furthermore, the dynamical RPA yields expressions for the mobilities of chain segments in the block copolymer melt. These combination rules are at variance with the experimental findings for the single chain dynamics, while they hold for the collective response. (C) 1999 American Institute of Physics. [S0021-9606(99)52120-X]. » weiterlesen» einklappen

Autoren


Montes, H (Autor)
Monkenbusch, M (Autor)
Willner, L (Autor)
Fetters, L (Autor)
Richter, D (Autor)

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