Critical Micelle Concentration

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The Critical Micelle Concentration (CMC) is the concentration of surfactants in a solution above which micelles form. Below the CMC, surfactants adsorb to an interface, lowering the interfacial tension, or disperse within the bulk. There may be an occasional micelle formed below the CMC. Likewise, above the CMC, a very limited amount of added surfactants may enter the dispersed phase or adsorb onto an interface. However, above the CMC, the vast majority of added surfactant will form micelles.

The Critical Micelle Concentration is related to the law of mass action. In chemistry, we look at the law of mass action to see how much of a reactant (individual surfactants) will form a product (micelles). Below the CMC, almost no micelles form, while above it, lots of micelles form.


A website from the Materials Research Science and Engineering Center at the University of Wisconsin has describes an experiment exploring critical micelle concentration. Movie clips on the website show the addition of SDS (a surfactant) to water while a strip containing water-insoluable dye sits in the container. At first, no dye leaves the strip. However, once micelles form localized pockets of hydrophobic tails, the dye moves from the paper into the centers of the micelles which are free to float about the container.

In industry, micelles are important in soaps, cosmetics, and even in oil recovery. Knowing the CMC can help develop a product with certain characteristics. It is interesting that above the CMC, the surface tension is fairly constant. Using surfactant could be a way to control the surface tension even if you are not interested in the micelles in the bulk.

In the paper Colloid Surfactants for Emulsion Stabilization, the authors observe clusters of amphiphilic particles analogous to micelles of surfactant molecules. Do amphiphilic particles also obey a critical aggregation concentration?


[1] R. Jones, "Soft Condensed Matter," Oxford University Press Inc., New York (2002).

[2] T. Witten, "Structured Fluids: Polymers, Colloids, Surfactants," Oxford University Press Inc., New York (2004).

[3] I. Morrison, "Surfactant Phases,"

[4] J. Breitzer, M. Lye, & G. Lisensky, "Critical Micelle Concentration," University of Wisconsin, Madision, Materials Research Science and Engineering Center, July 11, 2008.

[5] J. Kim, D. Lee, H. Shum, & D. Weitz, "Colloid Surfactants for Emulsion Stabilization," Adv. Mater. 20, 3239-3243 (2008).