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  Wolff, M. ; Steitz, R. ; Gutfreund, P. ; Voss, N. ; Gerth, S. ; Walz, M. ; Magerl, A. ; Zabel, H.: Shear induced relaxation of polymer micelles at the solid - liquid interface. Langmuir 24 (2008), p. 11331-11333

10.1021/la801945q

Abstract:
A 20% aqueous solution of (ethylene oxide)99-(propylene oxide)65-(ethylene oxide)99, F127, was investigated by combining rheology in a cone/plate-geometry and surface-sensitive grazing incident neutron scattering. The crystalline structure formed by the polymer micelles becomes less pronounced for low shear rates, but correlations increase for higher shear rates. After stopping shear a slow relaxation of the micelles is found in the vicinity (50 μm thick layer) of a hydrophilic silicon wall (strong micelle-wall interaction), while a fast relaxation is observed in the boundary layer against the hydrophobic silicon wall (weak micelle-wall interaction). The results show that in the vicinity of the interface wall-particle interactions compete heavily with the shear force acting on the liquid.