We present a microscopic description of thermophoretic phenomena in dilute suspensions of spherical colloids. The specific particle/solvent interfacial interactions generate a force density field on the surrounding fluid which in turn gives rise to an effective force on the colloid. In our approach, such a force turns out to be solely related to the non-conservative anisotropic contribution to brought forth by the thermal gradient. By adopting a Smoluchowski picture of colloid motion, we find a general expression for the Soret coefficient ST, which we apply to the specific cases of neutral colloids in pure solvent and of Debye-Hückel systems. For the latter, our result for ST agrees with those obtained by previous hydrodynamic approaches.
Particle thermophoresis in liquids
PAROLA, ALBERTO;
2004-01-01
Abstract
We present a microscopic description of thermophoretic phenomena in dilute suspensions of spherical colloids. The specific particle/solvent interfacial interactions generate a force density field on the surrounding fluid which in turn gives rise to an effective force on the colloid. In our approach, such a force turns out to be solely related to the non-conservative anisotropic contribution to brought forth by the thermal gradient. By adopting a Smoluchowski picture of colloid motion, we find a general expression for the Soret coefficient ST, which we apply to the specific cases of neutral colloids in pure solvent and of Debye-Hückel systems. For the latter, our result for ST agrees with those obtained by previous hydrodynamic approaches.
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