posted on 2013-01-08, 00:00authored byArmen H. Poghosyan, Levon H. Arsenyan, Aram A. Shahinyan
Using atomic level simulation we aimed to investigate
various intermediate phases of the long chain alkyl sulfonate/water
system. Overall, about 800 ns parallel molecular dynamics simulation
study was conducted for a surfactant/water system consisting of 128
sodium pentadecyl sulfonate and 2251 water molecules. The GROMACS
software code with united atom force field was applied. Despite some
differences, the analysis of main structural parameters is in agreement
with X-ray experimental findings. The mechanism of self-assembly of
SPDS molecules was also examined. At T = 323 K we
obtained both tilted fully interdigitated and liquid crystalline-like
disordered hydrocarbon chains; hence, the presence of either gel phase
that coexists with a lamellar phase or metastable gel phase with fraction
of gauche configuration can be assumed. Further increase of temperature
revealed that the system underwent a transition to a lamellar phase,
which was clearly identified by the presence of fully disordered hydrocarbon
chains. The transition from gel-to-fluid phase was implemented by
simulated annealing treatment, and the phase transition point at T = 335 K was identified. The surfactant force field in
its presented set is surely enabled to fully demonstrate the mechanism
of self-assembly and the behavior of phase transition making it possible
to get important information around the phase transition point.