Christian Davidson scite author profile

A thermo-electro-hydro-dynamic model is developed to analytically account for the effects of Stern layer conductance on electrokinetic energy conversion in nanofluidic channels. The optimum electrokinetic devices performance is dependent on a figure of merit, in which the Stern layer conductance appears as a nondimensional Dukhin number. Such surface conductance is found to significantly reduce the figure of merit and thus the efficiency and power output. This finding may explain why the recently measured electrokinetic devices performances are far below the theoretical predictions where the effects of Stern layer conductance have been ignored.

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Flow rate-modified streaming effects in heterogeneous microchannels

Zhu

Davidson

Xuan

2008

Microfluid Nanofluid

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A general model based on the Onsager reciprocal relations is developed to study the streaming potential and streaming current in heterogeneous microchannels. The surface heterogeneities may be symmetrically or asymmetrically distributed parallel or perpendicular to the flow axis. Both streaming effects are modified by the flow rate through the heterogeneous channel, to eliminate the possible influence of electrokinetic flow on the streaming potential and streaming current measurements. Although they are still dependent on the distribution of surface heterogeneity, the flow rate-modified streaming effects are demonstrated to provide more consistent results with the traditional linear assumption than do the traditional ones, especially apparent in small microchannels.

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Thermodynamic Analysis of Electrokinetic Transport in Micro/Nanofluidics

Xuan

Davidson

Zhu

2008

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Continuous Dielectrophoretic Separation of Multiple Particles in a Microfluidic Chip

Davidson

Zhu

Xuan

2008

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