Journal article
Phase Coexistence in a Dynamic Phase Diagram.
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Gentile L
Department of Chemistry and Chemical Technology, University of Calabria, P. Bucci 14C, 87036 Rende (Italy). luigi.gentile@unical.it.
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Coppola L
Department of Chemistry and Chemical Technology, University of Calabria, P. Bucci 14C, 87036 Rende (Italy).
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Balog S
Laboratory for Neutron Scattering, Paul Scherrer Institut, 5232, Villigen (Switzerland).
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Mortensen K
Niels Bohr Institute, University of Copenhagen, 2100 Copenhagen (Denmark).
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Ranieri GA
Department of Chemistry and Chemical Technology, University of Calabria, P. Bucci 14C, 87036 Rende (Italy).
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Olsson U
Physical Chemistry Division, Chemistry Department, Lund University, P.O. Box 124, 221 00 Lund (Sweden).
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Published in:
- Chemphyschem : a European journal of chemical physics and physical chemistry. - 2015
English
Metastability and phase coexistence are important concepts in colloidal science. Typically, the phase diagram of colloidal systems is considered at the equilibrium without the presence of an external field. However, several studies have reported phase transition under mechanical deformation. The reason behind phase coexistence under shear flow is not fully understood. Here, multilamellar vesicle (MLV)-to-sponge (L3 ) and MLV-to-Lα transitions upon increasing temperature are detected using flow small-angle neutron scattering techniques. Coexistence of Lα and MLV phases at 40 °C under shear flow is detected by using flow NMR spectroscopy. The unusual rheological behavior observed by studying the lamellar phase of a non-ionic surfactant is explained using (2) H NMR and diffusion flow NMR spectroscopy with the coexistence of planar lamellar-multilamellar vesicles. Moreover, a dynamic phase diagram over a wide range of temperatures is proposed.
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Language
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Open access status
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closed
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Identifiers
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Persistent URL
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https://sonar.ch/global/documents/44726
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