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Abstract
Mixtures of multiple surfactants that have superior performance to the individual components are highly sought-after commercially. Mixtures with a reduced Krafft point (TK) are particularly useful as they enable applications at lower temperatures. Such an example is the soap maker’s eutectic: the mixture of sodium laurate (NaL) and sodium oleate (NaOl). A true eutectic implies that the two surfactants do not mix in the solid state but mix readily in the micellar solution above TK, leading to a sharp TK depression at a specific composition. However, the NaL/NaOl mixture shows a broad TK depression of > 15 °C at a NaOl weight fraction (wO) of about 0.5. Our tie-line analysis shows that pure NaL and NaOl do not coexist in the solid phase on either side of the TK minimum. X-ray analysis of the isolated solids with varying wO reveals that a unique intermediate compound (I.C.) forms in the solid state with a NaL-to-NaOl mole ratio of about 4/3. Below the TK minimum, NaL and the I.C. coexist in the solids for wO < 0.5, whereas the I.C. and NaOl coexist in the solids for wO > 0.5. Each pair of solids exhibits eutectic or monotectic solubility behavior, and the congruent I.C. melting point is so close to that of the eutectic point(s) that a broad TK minimum ensues. Thermal analysis and modeling via the freezing-point depression approach support the above interpretation. The fact that surfactants with other headgroups but the same blend of chain lengths do not exhibit similar depressed TK is a topic for further study.
