DS - Colloids Flashcards
Define colloidal dispersions and list their main characteristics
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Explain the Tyndall effect and the basis of DLVO theory
What is light diffraction/scattering?
This is a phenomenon you have all observed either in presence of fog or by just looking at a glass of milk. The Figure below shows different views of milk the most well-known emulsion.
When looking at a glass of milk with your eye, it appears to be uniformly white or opaque; this result is due to the scattering of light. A closer look using an optical microscope reveals the presence of transparent particles/droplets. This is further confirmed using an electron microscope which has a far better resolution and reveals that milk is made of droplets/particles many of them being fat.
To conclude here, milk is not white as microscopes images have shown; however diffraction/scattering of light in the milk sample make it appear white. This effect is called the Tyndall effect.
Discuss colloids stabilisation
Coagulation: permanent contact between particles; soluble aggregates Aggregates: next step after coagulation; insoluble aggregates
Flocculated particles: temporary contact
Dispersed particles: rebound and remain free as single particles.
There are different forces that will contribute to the formation of these objects:
For lyophilic systems (e.g. monoclonal antibodies in aqueous solutions) three types of forces are considered: electrical forces of repulsions (between particles), forces of attraction (between particles) and solvation forces (for
each particle).
For lyophobic systems (e.g. emulsions or suspensions), only two types of
forces are considered: electrical forces of repulsions (between particles), forces of attraction (between particles).
