Structure of the complexes formed between sodium dodecyl sulfate and a charged and uncharged ethoxylated polyethyleneimine: Small-angle neutron scattering, electromotive force, and isothermal titration calorimetry measurements
Y. Li et al., Structure of the complexes formed between sodium dodecyl sulfate and a charged and uncharged ethoxylated polyethyleneimine: Small-angle neutron scattering, electromotive force, and isothermal titration calorimetry measurements, LANGMUIR, 17(18), 2001, pp. 5657-5665
A poly(ethylene oxide) derivative of polyethyleneimine behaves like a stron
g polyelectrolyte at pH = 2.5 and a neutral polymer at pH 10. Both the char
ged and uncharged versions of this polymer bind strongly to the surfactant
sodium dodecyl sulfate (SDS) with no phase separation taking place. Binding
isotherms were measured using a dodecyl sulfate electrode, and these data
were complemented with isothermal titration calorimetry (ITC) measurements.
Small-angle neutron scattering measurements were also carried out at some
specific concentrations in the binding region at pHs 2.5, 5.5, and 10. With
the exception of one measurement, bound micelles were detected and their a
ggregation numbers could be evaluated. For the SDS/polymer system at pH 10,
the polymer/surfactant complex contains 6-8 bound SDS micelles per polymer
molecule at the binding limit. In a solution of 6.5 mM SDS/0.5% w/v polyme
r at pH 10, bound SDS exists in a nonaggregated form. A detailed examinatio
n of the ITC data for the SDS/0.5% w/v polymer system shows at pH 10 that t
his spot solution occurs in a narrow SDS concentration range immediately fo
llowing the onset of binding and proceeding until the formation of proper b
ound micellar aggregates was detectable, whose presence and growth were cha
racterized in the ITC experiments by a steplike decrease in the enthalpy pe
r injection as a function of increasing SDS concentration. These data sugge
st that the absence of proper micellar aggregates is an inherent consequenc
e of the binding mechanism in the early stages of SDS binding to ethoxylate
d polyethyleneimines.