Microphase separation in ABA triblock copolymers creates microdomains
of A blocks that are physically cross-linked to each other by B blocks
: the so-called mesogel microstructure. The B blocks can adopt two bas
ic conformations: they can be tethered to two A domains (bridges) or t
o only one A domain (loops). In this study the lamellar morphology of
these mesogels is considered. The B block is considered to be a polyel
ectrolyte with a backbone that can be hydrophobic. Swelling of such ge
ls in aqueous media is theoretically explored-specifically two limits
are explored (i) the salt dominance limit and (ii) the no salt limit.
Equilibrium swelling characteristics of these gels as well as the resp
onse to external pressure, in the swollen state, are predicted. In the
high salt concentration regime a continuous transition from the colla
psed to swollen state is observed for changes in the backbone solvancy
. The collapse transition is unaffected, in the salt dominance limit,
by the fraction of loops or bridges. The elongation in salt dominance
strongly depends upon the loop fraction, but the compression is indepe
ndent of the loop fractions. A strong contrast is seen in the no salt
limit case where the collapse transition is discontinuous with changin
g excluded volume (or charge fraction) and hysteresis can be observed.
The collapse transition is now affected by the loop fraction-indeed c
ritical behavior is observed with changing loop fraction. The elongati
on and compression are both affected by the loop fraction in the no sa
lt limit.