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000862601 1001_ $$0P:(DE-Juel1)165875$$aTan, Zihan$$b0$$eCorresponding author
000862601 245__ $$aMicrofluidic Pump Driven by Anisotropic Phoresis
000862601 260__ $$aCollege Park, Md. [u.a.]$$bAmerican Physical Society$$c2019
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000862601 520__ $$aFluid flow along microchannels can be induced by keeping opposite walls at different temperatures and placing elongated tilted pillars inside the channel. The driving force for this fluid motion arises from the anisotropic thermophoretic effect of the elongated pillars that generates a force parallel to the walls and perpendicular to the temperature gradient. The force is not determined by the thermophilic or thermophobic character of the obstacle surface, but by the geometry and the thermophoretic anisotropy of the obstacle. Via mesoscale hydrodynamic simulations, we investigate the pumping properties of the device as a function of the channel geometry and pillar surface properties. Applications as fluidic mixers and fluid alternators are also outlined, together with the potential use of all these devices to harvest waste heat energy. Furthermore, similar devices can also be built employing diffusiophoresis or electrophoresis.
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000862601 536__ $$0G:(DE-Juel1)jics22_20151101$$aThermophoretic microswimmers: from single particle  to collective properties (jics22_20151101)$$cjics22_20151101$$fThermophoretic microswimmers: from single particle  to collective properties$$x1
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000862601 7001_ $$0P:(DE-Juel1)131052$$aYang, Mingcheng$$b1
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000862601 773__ $$0PERI:(DE-600)2760310-6$$a10.1103/PhysRevApplied.11.054004$$gVol. 11, no. 5, p. 054004$$n5$$p054004$$tPhysical review applied$$v11$$x2331-7019$$y2019
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