Surfactants are widely used due to their ability to modify surface and interfacial properties, making them relevant in processes involving the interaction of hydrophobic and hydrophilic substances. Their amphiphilic nature—containing both hydrophilic and hydrophobic parts—enables them to bridge these otherwise immiscible components, thereby facilitating mixing and enhancing the efficiency of various physical and chemical transformations. This makes surfactants useful in numerous fields where control over interfacial interactions is relevant. Surfactants play an important role as cleaning,
wetting,
dispersing,
emulsifying,
foaming and
anti-foaming agents in many practical applications and products, including
detergents,
fabric softeners,
motor oils,
emulsions,
soaps,
paints,
adhesives,
inks,
anti-fogs,
ski waxes, snowboard wax, in flotation, washing and enzymatic processes, and
laxatives.
Food industry Certain surfactants are used as
emulsifiers or
foaming agents in food. Examples can be found in the
List of food additives. The alkalization (
saponification) of cocoa fat in drinking cocoa powder serves to reduce the surface tension of the milk and to enable faster wetting or suspension of the semi-fat cocoa powder.
Personal care and homecare Surfactants are used in
detergents,
washing-up liquids,
shampoos,
shower gels, and similar products to increase the “solubility” of fat and dirt particles that adhere to laundry or the body in water.
Fabric softeners can consist of cationic surfactants that prevent laundry from becoming stiff when dry.
Pharmaceuticals and cosmetics Emulsifiers are essential for producing
water-in-oil emulsions, e.g. for
skin creams. They are also necessary for a wide range of suspensions to maintain liquid drug formulations.
Plant protection products Plant protection products contain surfactants to improve wetting (spreading) on plants. The most common wetting agent is ethoxylated tallow amine. Trisiloxanes or polyoxyethylated fatty alcohols are also used. Agrochemical formulations that use surfactants include
herbicides (some),
insecticides,
biocides (sanitizers).
Medicine Surfactants act to cause the displacement of air from the matrix of cotton pads and bandages so that medicinal solutions can be absorbed for application to various body areas. They also act to displace dirt and debris by the use of detergents in the washing of wounds and via the application of medicinal lotions and sprays to surface of skin and mucous membranes. Surfactants enhance remediation via soil washing, bioremediation, and phytoremediation. Many
spermicides contain surfactants (such as
nonoxynol-9).
Biochemistry In solution, detergents help solubilize a variety of chemical species by dissociating aggregates and unfolding proteins. Popular surfactants in the biochemistry laboratory are
sodium lauryl sulfate (SDS) and
cetyl trimethylammonium bromide (CTAB). Detergents are key reagents to
extract protein by lysis of the cells and tissues: they disorganize the membrane's
lipid bilayer (SDS,
Triton X-100,
X-114,
CHAPS,
DOC, and
NP-40), and solubilize proteins. Milder detergents such as
octyl thioglucoside,
octyl glucoside or
dodecyl maltoside are used to solubilize membrane proteins such as
enzymes and
receptors without
denaturing them. Non-solubilized material is harvested by centrifugation or other means. For
electrophoresis, for example, proteins are classically treated with SDS to denature the native
tertiary and quaternary structures, allowing the separation of proteins according to their
molecular weight. Detergents have also been used to decellularise organs. This process maintains a matrix of proteins that preserves the structure of the organ and often the microvascular network. The process has been successfully used to prepare organs such as the liver and heart for transplant in rats.
Pulmonary surfactants are also naturally secreted by type II cells of the lung
alveoli in
mammals.
Technology Antistatic agents Ionic surfactants also function as external antistatic agents to prevent electrostatic charging of plastic surfaces (ESD protection). Both anionic and cationic surfactants are used for this purpose[9].
Textile finishing Perfluorinated surfactants, such as fluorotelomer alcohols (FTOH), are used as coating agents for textiles, carpets, and construction products to impart or enhance water and grease repellency. As members of the PFC group, however, they are subject to criticism because they are persistent and practically non-degradable in nature.
Cooling lubricants Surfactants are employed in water-mixed cooling lubricants (water-in-oil emulsions) to provide effective cooling and lubrication during metal cutting operations.
Printer ink Surfactants regulate the consistency of ink in inkjet printers. An insufficient amount of surfactants results in clumping of the color pigments, whereas an excessive amount renders the ink overly fluid during printing.
Paper recycling In
paper recycling, surfactants facilitate the detachment of ink particles from paper fibers (
deinking) and assist in transporting the ink to the surface.
Oil and mining industry Alkali surfactant polymers are used to mobilize oil in
oil wells. Surfactants also play a key role in
froth flotation processes for separating copper and other minerals from
ores.
Fire fighting Surfactants are used in
firefighting (to make "wet water" that more quickly soaks into flammable materials) and pipelines (liquid drag reducing agents). "Wet water" provides the advantage of allowing the extinguishing water to penetrate burning materials such as wood or fabric more effectively, thereby enhancing its cooling capacity. Additionally, extinguishing water mixed with surface-active agents can be sprayed over greater distances at the same pumping capacity due to their flow-improving properties. Special foaming agents (
Aqueous Film Forming Foam, AFFF) for combating liquid fires contain perfluorinated surfactants that form a gas-tight liquid film between the burning material and the foam. This simultaneously imparts superior sliding properties to the foam blanket, thereby enabling the effective extinguishment of larger liquid fires.
Surfactants in droplet-based microfluidics Surfactants play an important role in
droplet-based microfluidics in the stabilization of the droplets, and the prevention of the fusion of droplets during incubation.
Human body and nature , found in lecithin, is a pervasive biological surfactant. Shown in –
choline and
phosphate group; –
glycerol; –
monounsaturated fatty acid; –
saturated fatty acid. The human body produces diverse surfactants.
Pulmonary surfactant is produced in the
lungs in order to facilitate breathing by increasing
total lung capacity, and
lung compliance. In
respiratory distress syndrome or RDS,
surfactant replacement therapy helps patients have normal respiration by using pharmaceutical forms of the surfactants. One example of a pharmaceutical pulmonary surfactant is Survanta (
beractant) or its generic form Beraksurf, produced by
Abbvie and
Tekzima respectively.
Bile salts, a surfactant produced in the liver, play an important role in digestion. Certain caterpillars (of the moth species
Spodoptera exigua, South East Asia) spit a surfactant-containing secretion at predators. This deters attacking ants, allowing the caterpillars to escape. The surfactants in the caterpillars' oral secretions reduce its surface tension. Instead of rolling off the ants' water-repellent skin like normal water, the secretion soaks the attackers. The affected ants then clean themselves, which gives the caterpillar enough time to escape. == Safety and environmental risks ==