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000841371 1001_ $$0P:(DE-Juel1)165875$$aTan, Zihan$$b0$$eCorresponding author
000841371 245__ $$aAnisotropic thermophoresis
000841371 260__ $$aLondon$$bRoyal Soc. of Chemistry$$c2017
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000841371 520__ $$aColloidal migration in a temperature gradient is referred to as thermophoresis. In contrast to particles with a spherical shape, we show that elongated colloids may have a thermophoretic response that varies with the colloid orientation. Remarkably, this can translate into a non-vanishing thermophoretic force in the direction perpendicular to the temperature gradient. Opposite to the friction force, the thermophoretic force of a rod oriented with the temperature gradient can be larger or smaller than when oriented perpendicular to it. The precise anisotropic thermophoretic behavior clearly depends on the colloidal rod aspect ratio, and also on its surface details, which provides an interesting tunability to the devices constructed based on this principle. By means of mesoscale hydrodynamic simulations, we characterize this effect for different types of rod-like colloids.
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000841371 536__ $$0G:(DE-Juel1)jjsc22_20150501$$aStructure Formation in Thermal Barrier Coatings (jjsc22_20150501)$$cjjsc22_20150501$$fStructure Formation in Thermal Barrier Coatings$$x1
000841371 536__ $$0G:(DE-Juel1)jics22_20151101$$aThermophoretic microswimmers: from single particle  to collective properties (jics22_20151101)$$cjics22_20151101$$fThermophoretic microswimmers: from single particle  to collective properties$$x2
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000841371 7001_ $$00000-0002-8742-9277$$aYang, Mingcheng$$b1$$eCorresponding author
000841371 7001_ $$0P:(DE-Juel1)130920$$aRipoll, Marisol$$b2$$eCorresponding author
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