Surfactant | Defination, Classification, Properties & Uses
Jun. 24, 2024
Surfactant | Defination, Classification, Properties & Uses
Fig. 1.2 - Surfactant in action.
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Nonionic surfactants have covalently bonded oxygen-containing hydrophilic groups, which are bonded to hydrophobic parent structures. The water-solubility of the oxygen groups is the result of hydrogen bonding. Hydrogen bonding decreases with increasing temperature, and the water solubility of nonionic surfactants therefore decreases with increasing temperature. The characteristic feature of cloud point (CP) of nonionic surfactants is the temperature at which the surfactant separates out from an aqueous solution due to the weakening of hydrogen bonds between the surfactant and water molecules. Nonionic surfactants are less sensitive to water hardness than anionic surfactants, and they foam less strongly.
Most anionic and nonionic surfactants are nontoxic, having LD50 comparable to sodium chloride. The toxicity of quaternary ammonium compounds, which are antibacterial and antifungal, varies. Prolonged exposure to surfactants can irritate and damage the skin because surfactants disrupt the lipid membrane that protects skin and other cells. Skin irritancy generally increases in the series nonionic, amphoteric, anionic, cationic surfactants..
Surfactants play an important role in personal care products such as cosmetics, shampoos, shower gel, hair conditioners, and toothpastes. The property of providing cleaning, wetting, and dispersing, emulsifying, foaming and anti-foaming effects are used in many practical applications and products. Surfactants with different HLB are used in detergents, fabric softeners, soaps, paints, adhesives, inks, emulsions, anti-fogs, ski waxes, snowboard wax, deinking of recycled papers, in flotation, washing and enzymatic processes. Agrochemical formulations such as some herbicides, insecticides, biocides (sanitizers), and spermicides also contain Surfactants. Surfactants find use in firefighting and pipelines as liquid drag reducing agents. Alkali Surfactant polymers are used to mobilize oil in oil wells for exploration.
Nonionic surfactant refers to the surfactant molecules, which do not undergo ionization when being dissolved in water. The Nonionic surfactant are not in the ionic state in the solution, thereby having high stability and being less susceptible to the effect of strong electrolyte inorganic salts as well as acid and alkalis. Nonionic surfactants have excellent compatibility with other types of surfactants and have excellent solubility (which vary depending on different structures, HLB etc) in both water and organic solvents.
Nonionic surfactants have covalently bonded oxygen-containing hydrophilic groups, which are bonded to hydrophobic parent structures. These Nonionic surfactants, are not ionized in water, and contain both hydrophilic groups (e.g. oxyethylene-CH2CH2O-, ether groups, hydroxyl group -OH or -CONH2 amide group, etc.) and lipophilic group (e.g., hydrocarbons which can be natural fatty alcohols or synthetic alcohols, acids or glyceryl esters/oils). The water-solubility of the oxygen groups is the result of hydrogen bonding. Hydrogen bonding decreases with increasing temperature, and the water solubility of Nonionic surfactants therefore decreases with increasing temperature. This result in formation of a milky/cloudy emulsion called the cloud point of surfactants. This property is very essential for determining the optimum use of Nonionic surfactant in formulations at elevated temperature especially in cleaning formulations like detergents, CIP etc.
As discussed above Nonionic surfactants have a unique property called a cloud point. The cloud point is the temperature at which the Nonionic surfactant begins to separate from the cleaning solution, called phase separation. When this occurs, the cleaning solution becomes cloudy. This cloud point is therefore considered the temperature for optimal detergency. For low foaming cleaners, optimal detergency is at the cloud point; for foaming cleaners optimal detergency is either just below the cloud point or at the start of the cloud point. The agitation of low foaming cleaners is sufficient to prevent phase separation. The temperature of the cloud point depends upon the ratio of the hydrophobic and hydrophilic portions of the Nonionic surfactant. Some cloud points are at room temperature while others are very high. Some Nonionic surfactants dont have a cloud point because they have a very high ratio of hydrophilic to hydrophobic moieties.
Nonionic surfactants are less sensitive to water hardness than anionic surfactants, and they foam less strongly. The differences between the individual types of Nonionic surfactants are slight, and the choice is primarily governed having regard to the costs of special properties (e.g., effectiveness and efficiency, toxicity, dermatological compatibility, biodegradability) or permission for use in food. In areas with hard water (high mineral content), Nonionic surfactants are more heavily marketed, as they are less likely to form a soap scum. The Nonionic surfactants are less likely to cause skin irritation, but this is associated with a less potent cleaning ability. Most cleaning products are manufactured as a blend of anionic and Nonionic surfactants to balance out the cleaning potential with the risk of skin irritation.
The aqueous solution of Nonionic surfactants has poor foaming capability with the foam being not stable as well. This is due to that each molecule of the Nonionic surfactant has relatively large surface area and the interface being in uncharged foam. Polyoxyethylene has long chain and uniform molecular weight distribution. The lipophilic group has long chain and also contains branched chain. The presence of the polyoxyethylene -polyoxypropylene copolymer both has a great impact on the foaming of the Nonionic surfactants. Owing to the presence of the polar portion and non-polar portions existing in their molecular structure, they have large surface activity. Such kind of active agents can be divided into the ester type (e.g. polyoxyethylene fatty acid esters, sorbitan fatty acid esters anhydrides), ether type (e.g., polyoxyethylene alkyl ether, polyoxyethylene alkyl phenol ether), amine type (such as polyoxyethylene fatty amine), amide type (such as polyoxyethylene alkyl amide) and mixing type (such as sorbitol anhydride fatty acid esters, polyoxyethylene ether). In the field of oiling, Nonionic surfactants are mainly used in foaming, emulsifying, anti-wax, anti-corrosion, retarder, production increase of oil wells, intensified injection of injection wells as well as improving oil recovery and so on.
Trade/Common name Name Applications Product-35-AJ Polyoxyethylene glycol octylphenol ethers: C8H17(C6H4)(O-C2H4)125OH Wetting agent coatings Product-30-AI Polyoxyethylene glycol alkylphenol ethers: C9H19(C6H4)(O-C2H4)125OH Spermacide Polysorbates Polyoxyethylene glycol sorbitan alkyl esters Food ingredient Span® Sorbitan alkyl esters Polishes, cleaners, fragrance carriers PEGs, PPGs Product L-61, L-62, F-108 Block copolymers of polyethylene glycol and polypropylene glycol VariousAnionic surfactants contain anionic functional groups at their head, such as sulfonate, phosphate, sulfate and carboxylates. Alkyl sulfates include sodium lauryl and the related alkyl-ether sulfates sodium laureth sulfate, also known as sodium lauryl ether sulfate (SLES), and sodium myreth sulfate. Sodium stearate is a good example of a surfactant. It is the most common surfactant in soap. The stearates comprise >50% of the global usage of surfactants. Many of these find utilization in emulsion polymerization. Other anionic surfactants include dioctyl sodium sulfosuccinate (DOSS), linear alkylbenzene sulfonates (LABs) and alkyl-aryl ether phosphates.
Abbreviation Name Applications DOSS Dioctyl sodium sulfosuccinate (DOSS) Wetting agent coatings, toothpaste LABSA Linear alkylbenzene sulfonates Laundry detergents, dishwasher detergents SLES Sodium lauryl ether sulfate Shampoos, bath products N/A Sodium stearate Handsoap, HI&I productsCationic surfactants are comprised of a positively charged head. Most of cationic surfactants find use as anti-microbials, anti-fungals, etc. in HI&I (Benzalkonium chloride (BKC-80 and BKC-50). The cationic nature of these surfactants disrupts the cell membranes of bacteria and viruses.
Zwitterionic (amphoteric) surfactants have both cationic and anionic centers attached to the same molecule. The anionic part can be variable and include sulfonates, as in the sultaines (Foamer HS). Betaines such as cocamidopropyl betaine (CAPB, coco betaine) have a carboxylate with the ammonium. The cationic part is based on primary, secondary, or tertiary amines or quaternary ammonium cations. Zwitterionic surfactants are often sensitive to pH and will behave as anionic or cationic based on pH. Fast dry (coacervation) latex traffic paints are based on this concept, with a drop in pH triggering the latex in the paint to coagulate.
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Surfactants are chemical substances that have a wide range of applications in different industries and are an important part of many of the products we use on a daily basis. They can be defined as substances that primarily reduce the surface tension of a liquid, which is a property of the surface of the liquid that resists external forces. For example, surface tension allows some insects to run on the surface of the water without sinking or paper clips floating in the water. In the same way, surfactants also reduce the interfacial tension between two liquids, such as water and oil. These very important properties are already present in different products, including detergents, wetting agents, foaming agents, emulsifiers etc.
Surfactants act as emulsifiers. Emulsifiers are substances that disperse a liquid into another unmixed solution, for example oil into water. When you try to mix oil and water they never mix. As an example of what happens when you wash the dishes; the oil can only be mixed with water after you have placed a product containing oil soluble surfactants such as dishwashing liquid to remove the oily product left on the dishes. This happens because the tail of the surfactant is hydrophobic and the oily substance is trapped in the micelle nucleus, and because the micelle is water soluble, the oily substance can be removed.
Based on their chemical structure, surfactants are classified as anionic, cationic and non-ionic surfactants.
Anionic surfactants consist of a head with a negative charge and an organic tail of small positive atoms or molecules such as ammonium. These are the most common types of surfactants.
Cationic surfactants have a positively charged head and an organic tail with small negative atoms or molecules such as chlorine. They are more expensive to produce and therefore have limited use.
Unlike anionic or cationic surfactants, non-ionic surfactants are not ionised in water because their hydrophilic part consists of non-degradable molecules such as alcohols, phenols, etc. It accounts for about 45% of the entire industrial production.
Amphoteric ions, which consist of a molecule with both anionic and cationic dissociation.
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