SURFACE tension is the property of the liquid in contact with gas phase (this is usually air). Interfacial tension is the property between any two substances. It could be liquid-liquid, liquid-solid or solid-air.
Surface and interfacial tension are usually presented by the symbol σ and it is measured by force per unit length. Its SI unit is mN/m which is equivalent to often used cgs unit, dynes/cm.
To understand the origin of surface and interfacial tension, we need to understand two additional terms; cohesion and adhesion.
Cohesion is the interaction between like-molecules
Cohesion is the attraction between molecules that are like each other. Cohesive forces are intermolecular forces which causes liquid to resist separation. For example, in water, there are strong cohesive forces, hydrogen bonds, that causes the rain to come down as a water drop rather than a mist.
The cohesive forces between the molecules are responsible for surface tension. Or, the imbalance of these forces as there are less neighboring molecules on the surface than in the bulk of the liquid.
Cohesive forces on solids are so strong that, solids don't stick to materials they come in contact. Liquids, like water, on the other hand, has also adhesive forces, which get them to interact with other liquids and solids.
Adhesion is the interaction between unlike molecules
Adhesion is the interaction between unlike molecules. Adhesion force is caused by forces acting between two substrates, such as mechanical and electrostatic forces. When two immiscible liquids are brought into contact, the adhesion forces play a serious role. Adhesion forces are also important when liquid is brought in contact with solid.
Surface and interfacial tension are important in many industrial applications
Both surface and interfacial tension are important in many industrial applications. Surface tension, for example, is measured when critical micelle concentration (CMC) needs to be determined. Interfacial tension is important parameter in emulsion stability.
If you are interested in reading more about surface and interfacial tension and their measurement techniques, please download the white paper.
Source: Biolin Scientific (Attension)
Susanna is an Application Scientist at Biolin Scientific. In her PhD thesis, she developed fabrication methods for a new type of inorganic-organic polymers. Microfabricated polymer chips were utilized as tool for biomolecule separation in analytical chemistry.