Electric-Field-Induced Phase-Separation of Liquid Mixtures

Researches have shown that electric fields can control the phase separation behaviour of mixtures of simple liquids under practical conditions, provided that the fields are non-uniform. This direct control over phase separation behaviour depends on field intensity, with the electrode geometry determining the length-scale of the effect. This phenomenon will find a number of nanotechnological applications, particularly as it benefits from field gradients near small conducting objects.

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<p><a href="http://www.physorg.com/news728.html">Electric-Field-Induced Phase-Separation of Liquid Mixtures</a></p> <p>Researches have shown that electric fields can control the phase separation behaviour of mixtures of simple liquids under practical conditions, provided that the fields are non-uniform. This direct control over phase separation behaviour depends on field intensity, with the electrode geometry determining the length-scale of the effect. This phenomenon will find a number of <a class="directory" href="http://www.physorg.com/search/nanotechnology">nanotechnological</a> applications, particularly as it benefits from field gradients near small conducting objects.</p>