The family of surfactants commonly

The family of surfactants commonly referred to as ‘‘amphoterics’’ are surfaceactive materials that contain, or have the potential to form, both positive and
negative functional groups under specified conditions. Their definition as a separate
class of surfactants has historically been somewhat controversial, since they may be
electrically neutral and their general properties under many conditions make them
functionally similar to some nonionic surfactants. For purposes of discussions
related to chemical structures, however, they have been separated into a distinct
family. In the final analysis, a surfactant by any other name is still a surfactant,
so that too much importance should not be placed on nomenclature.
Although amphoteric materials represent only a small portion of total worldwide
surfactant production, their market position is increasing significantly because of
the unique properties that such materials can impart to a formulation. It is particularly important that they often show considerable synergism when employed with
other classes of surfactants. Their nature can make them especially useful in applications requiring biological contact as, for example, in ‘‘no tears’’ baby shampoos.
In addition, for uses that might involve the presence of charged polymeric species,
the ‘‘dual’’ nature of the materials reduces or eliminates the possibility of undesirable polymer–surfactant interactions (see Chapter 7).
Although there exists a rather large group of organic functionalities that hold the
potential for producing amphoteric surfactants, in general four classes of materials
are most often encountered: imidazoline derivatives, betaines and sulfobetaines,
amino acid derivatives, and lecithin and related phosphatides. Charge-separated
compounds such as amine oxides and sulfoxides, mentioned in Section 2.6,
could easily be included in the amphoteric classification; however, the more intimate nature of their charge separation, as compared to the internal salts to be discussed here, seems to justify their inclusion in the nonionic category.
It may be noticed that the discussion of amphoteric surfactants of the first three
classes allows for considerable overlap as far as chemical structures are concerned.
Surfactants that can be considered to be amino acid derivatives may be prepared via
the imidazoline intermediate or by some more direct route as described below. The
betaines, on the other hand, are merely a special subclass of amino acid derivatives
in which the amino group has been quaternized, again resembling a subclass of the
imidazoline-derived materials. Clearly, an unequivocal distinction between the
general types of amphoteric surfactants is impossible. A detailed description of
the wide range of possibilities that exist in this class of materials is given in the
works cited in the Bibliography. A brief description of some of the main groups
of amphoteric surfactants will illustrate the general chemical nature of this family
of materials.