Phase inversion (chemistry) explained

Phase inversion or phase separation is a chemical phenomenon exploited in the fabrication of artificial membranes. It is performed by removing the solvent from a liquid-polymer solution, leaving a porous, solid membrane.

Process

Phase inversion is a common method to form filtration membranes, which are typically formed using artificial polymers. The method of phase inversion is highly dependent on the type of polymer used and the solvent used to dissolve the polymer.

Phase inversion can be carried out through one of four typical methods:[1]

The rate at which phase inversion occurs and the characteristics of the resulting membrane are dependent on several factors, including:[2]

Characterization

Phase inversion membranes are typically characterized by their mean pore diameter and pore diameter distribution. This can be measured using a number of established analytical techniques such as the analysis of gas adsorption-desorption isotherms, porosimetry, or more niche approaches such as Evapoporometry. A Scanning electron microscope (SEM) can be used to characterize membranes with larger pore sizes, such as microfiltration and ultrafiltration membranes, while Transmission electron microscopy (TEM) can be used for all membrane types, including small pore membranes such as nanofiltration and reverse osmosis, though optical techniques tend to analyze only a small sample area that may not be representative of the sample as a whole.

In emulsions

See also

Notes and References

  1. Strathmann. H.. Kock. K.. Recent advances in the formation of phase inversion membranes made from amorphous or semi-crystalline polymers. Journal of Membrane Science. May 1996. 113. 2. 361–371. 10.1016/0376-7388(95)00256-1.
  2. Krantz. William.B.. Greenberg. Alan.R.. The formation mechanism of phase inversion membranes. Desalination. September 1977. 21. 3. 241–255. 10.1016/s0011-9164(00)88244-2.