posted on 2019-08-14, 21:29authored byTrung
Dac Nguyen, Monica Olvera de la Cruz
We
demonstrate that a highly charged polyelectrolyte confined in
a spherical cavity undergoes reversible transformations between amorphous
conformations and a four-fold symmetry morphology as a function of
dielectric mismatch between the media inside and outside the cavity.
Surface polarization due to dielectric mismatch exhibits an extra
“confinement” effect, which is most pronounced within
a certain range of the cavity radius and the electrostatic strength
between the monomers and counterions and multivalent counterions.
For cavities with a charged surface, surface polarization leads to
an increased amount of counterions adsorbed in the outer side, further
compressing the confined polyelectrolyte into a four-fold symmetry
morphology. The equilibrium conformation of the chain is dependent
upon several key factors including the relative permittivities of
the media inside and outside the cavity, multivalent counterion concentration,
cavity radius relative to the chain length, and interface charge density.
Our findings offer insights into the effects of dielectric mismatch
in packaging and delivery of polyelectrolytes across media with different
relative permittivities. Moreover, the reversible transformation of
the polyelectrolyte conformations in response to environmental permittivity
allows for potential applications in biosensing and medical monitoring.