posted on 2015-08-25, 00:00authored byPablo de la Iglesia, Vance W. Jaeger, Yuyin Xi, Jim Pfaendtner, Lilo D. Pozzo
This work describes the synthesis
and characterization of metal–surfactant
complexes. Dioctyl sulfosuccinate and dodecylbenzenesulfonate are
associated with multivalent aluminum, iron, and vanadium ions using
an ion exchange reaction. The metal complexes are dispersible in various
organic solvents. In solvents with low polarity, the complexes form
“inverse” macromolecular structures with multiple metal
ions. In contrast, in alcohols, the complex size is reduced, showing
a more disperse conformation. The metal and surfactant ions are still
strongly bonded to each other in all the solvents probed. Small-angle
X-ray and neutron scattering (SAXS and SANS) are used to characterize
the structures. Simultaneous fitting of neutron and X-ray scattering
spectra is performed in order to obtain an accurate description of
the system. Scattering results are also validated by performing molecular
dynamics (MD) simulations. The conductive and electrochemical properties
of the complexes in solution are also evaluated. The dispersion of
metal–organic complexes significantly increases electric conductivity,
and some metal ions in the core of the complexes are shown to be electrochemically
active in apolar solvents.