The phase behavior and aggregation properties of a triblock
copolymer of ethylene oxide
(EO) and propylene oxide (PO), with a measured composition
(EO)29(PO)40(EO)29, in
aqueous solutions
containing salt, have been examined using dynamic light scattering,
rheological techniques, and
sedimentation and viscosity measurements. The copolymer is
dissolved as a unimer at low temperatures
and forms spherical micelles with increasing temperature. At
higher temperatures, a sphere-to-rod
transition is seen for the micelles. Two types of gel are formed
at higher concentrations of the copolymer.
With different inorganic salts, the micellization and gelation
properties of the copolymer follow the same
type of transitions as the salt-free system, but all transition
temperatures are shifted. The spherical
micelles thus transform into rod-like micelles at around 38 °C in 1 M
KF, which is approximately 36 deg
below the transition temperature in the salt-free system. Rod
lengths in 1 M KF are between 1000 and
1800 Å, at 40 °C. The higher-temperature gel phase is seen at
all concentrations down to 0.5 −1 wt %.
The elasticity of this gel is due to hindered rotation of rods.
Its relaxation time decreases with increasing
concentration, indicating that the gel relaxes due to a partial
breakdown or dissolution of the rods at the
cross points. The strain dependence of this gel suggests that
ordered structures of rods are formed at
concentrations above 27 wt %.
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