Sorption

Sorption is a physical and chemical process by which one substance becomes attached to another. The term encompasses both absorption and adsorption, which are different processes. Sorption is a key concept in various scientific fields, including chemistry, biology, and environmental science.

Types of Sorption[edit]

Sorption can be classified into two main types:

• Absorption: This is the process in which a substance is taken up into the volume of another substance, such as a liquid or solid. An example of absorption is the uptake of water by a sponge.
• Adsorption: This is the process in which a substance adheres to the surface of another substance. An example of adsorption is the accumulation of gases on the surface of activated charcoal.

Mechanisms[edit]

The mechanisms of sorption can vary depending on the nature of the substances involved. Common mechanisms include:

• Physisorption: This involves weak van der Waals forces and is usually reversible.
• Chemisorption: This involves the formation of chemical bonds and is usually irreversible.

Applications[edit]

Sorption has a wide range of applications in various fields:

• Environmental Science: Sorption is used in the removal of pollutants from air and water. For example, activated carbon is used to adsorb contaminants from drinking water.
• Pharmacology: Sorption processes are crucial in drug delivery systems where the drug needs to be absorbed by the body.
• Chemical Engineering: Sorption is used in separation processes, such as in the purification of gases and liquids.

Factors Affecting Sorption[edit]

Several factors can influence the sorption process:

• Temperature: Higher temperatures can increase the rate of sorption but may also lead to desorption.
• Pressure: Higher pressures can increase the amount of gas adsorbed on a solid surface.
• Surface Area: Larger surface areas provide more sites for adsorption.
• Concentration: Higher concentrations of the sorbate can increase the rate of sorption.

Sorption Isotherms[edit]

Sorption isotherms describe how a sorbate interacts with a sorbent at constant temperature. Common models include:

• Langmuir Isotherm: Assumes monolayer adsorption on a surface with a finite number of identical sites.
• Freundlich Isotherm: An empirical model that describes adsorption on heterogeneous surfaces.

See Also[edit]

• Absorption
• Adsorption
• Desorption
• Physisorption
• Chemisorption
• Langmuir Isotherm
• Freundlich Isotherm

References[edit]

External Links[edit]

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