Detergents and soaps are used for cleaning
because pure water can't remove oily, organic soiling. Soap cleans by acting as
an emulsifier. Basically, soap allows oil and water to mix so that oily grime
can be removed during rinsing. Detergents were developed in response to the
shortage of the animal and vegetable fats used to make soap during World War I
and World War II. Detergents are primarily surfactants, which could be produced
easily from petrochemicals. Surfactants lower the surface tension of water,
essentially making it 'wetter' so that it is less likely to stick to itself and
more likely to interact with oil and grease.
Modern detergents contain more than surfactants. Cleaning
products may also contain enzymes to degrade protein-based stains, bleaches to
de-color stains and add power to cleaning agents, and blue dyes to counter
yellowing. Like soaps, detergents have hydrophobic or water-hating molecular
chains and hydrophilic or water-loving components. The hydrophobic hydrocarbons
are repelled by water, but are attracted to oil and grease. The hydrophilic end
of the same molecule means that one end of the molecule will be attracted to
water, while the other side is binding to oil. Neither detergents nor soap
accomplish anything except binding to the soil until some mechanical energy or
agitation is added into the equation. Swishing the soapy water around allows
the soap or detergent to pull the grime away from clothes or dishes and into the
larger pool of rinse water. Rinsing washes the detergent and soil away. Warm or
hot water melts fats and oils so that it is easier for the soap or detergent to
dissolve the soil and pull it away into the rinse water. Detergents are similar
to soap, but they are less likely to form films (soap scum) and are not as
affected by the presence of minerals in water (hard water).
Modern detergents may be made from petrochemicals or from
oleochemicals derived from plants and animals. Alkalis and oxidizing agents are
also chemicals found in detergents. Here's a look at the functions these
molecules serve:
·
Petrochemicals/Oleochemicals
These fats and oils are hydrocarbon chains which are attracted to the oily and greasy grime.
These fats and oils are hydrocarbon chains which are attracted to the oily and greasy grime.
·
Oxidizers
Sulfur trioxide, ethylene oxide, and sulfuric acid are among the molecules used to produce the hydrophilic component of surfactants. Oxidizers provide an energy source for chemical reactions. These highly reactive compounds also act as bleaches.
Sulfur trioxide, ethylene oxide, and sulfuric acid are among the molecules used to produce the hydrophilic component of surfactants. Oxidizers provide an energy source for chemical reactions. These highly reactive compounds also act as bleaches.
·
Alkalis
Sodium and potassium hydroxide are used in detergents even as they are used in soapmaking. They provide positively charged ions to promote chemical reactions.
Sodium and potassium hydroxide are used in detergents even as they are used in soapmaking. They provide positively charged ions to promote chemical reactions.
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