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Paper detail

Experimental Study of Thermodiffusion and Thermoelectricity in Charged Colloids

The Seebeck and Soret coefficients of ionically stabilized suspension of maghemite nanoparticles in dimethyl sulfoxide are experimentally studied as a function of nanoparticle volume fraction. In the presence of a temperature gradient, the charged colloidal nanoparticles experience both thermal drift due to their interactions with the solvent molecules and electric forces proportional to the internal thermoelectric field. The resulting thermodiffusion of nanoparticles is observed through Forced Rayleigh scattering, while the thermoelectric field is accessed through voltage measurements in a thermocell. Both techniques provide independent estimates of nanoparticle's entropy of transfer as high as 75 meV/K. Such a property may be used to improve the thermoelectric coefficients in liquid thermocells.

preprint2015arXivOpen access
B. T. HuangM. RogerM. BonettiT. J. SalezC. Wiertel-GasquetE. DuboisR. Cabreira GomesG. DemouchyG. MériguetV. PeyreM. KouyatéC. L. FilomenoJ. DepeyrotF. A. TourinhoR. PerzynskiS. Nakamae
cond-mat.soft
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Open access16 authors1 topic
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B. T. HuangM. RogerM. BonettiT. J. SalezC. Wiertel-GasquetE. DuboisR. Cabreira GomesG. DemouchyG. MériguetV. PeyreM. KouyatéC. L. FilomenoJ. DepeyrotF. A. TourinhoR. PerzynskiS. Nakamae

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