David Boy | University of California, Santa Barbara (original) (raw)
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Papers by David Boy
Physical Review E, Jan 1, 2007
Bulletin of the American Physical Society, Jan 1, 2005
The interaction of fluid electrical conductivity gradients and applied electric fields are known ... more The interaction of fluid electrical conductivity gradients and applied electric fields are known to be susceptible to electrohydrodynamic instabilities. In microfluidic applications, it has been shown that such instabilities can generate chaotic flows at low Reynolds number. This ...
The 2008 Annual …, Jan 1, 2008
- 9:55 AM 233e. Diffusivity Effects In Charged Particle Transport In Nanochannels. David A. Boy, ... more - 9:55 AM 233e. Diffusivity Effects In Charged Particle Transport In Nanochannels. David A. Boy, Maria Napoli, Frederic Gibou, Igor Mezic, and Sumita Pennathur. Mechanical Engineering, UCSB, Santa Barbara, CA 93106. Fluid ...
Bulletin of the American Physical …, Jan 1, 2008
Recent work has investigated the dispersion and separation of charged molecules in nanochannels. ... more Recent work has investigated the dispersion and separation of charged molecules in nanochannels. One conclusion has been that the combination of transverse velocity and electric field gradients can provide a mechanism for separation of different-valence ionic species. ...
Bulletin of the American Physical Society, Jan 1, 2006
Microfluidic applications involving induced charge electroosmosis often rely upon having closely ... more Microfluidic applications involving induced charge electroosmosis often rely upon having closely spaced electrodes inside the device. High electric fields are generated at relatively low voltage, which can drive significant flow. Even at low voltage, Faradaic reactions are ...
Physical Review E, Jan 1, 2007
Bulletin of the American Physical Society, Jan 1, 2005
The interaction of fluid electrical conductivity gradients and applied electric fields are known ... more The interaction of fluid electrical conductivity gradients and applied electric fields are known to be susceptible to electrohydrodynamic instabilities. In microfluidic applications, it has been shown that such instabilities can generate chaotic flows at low Reynolds number. This ...
The 2008 Annual …, Jan 1, 2008
- 9:55 AM 233e. Diffusivity Effects In Charged Particle Transport In Nanochannels. David A. Boy, ... more - 9:55 AM 233e. Diffusivity Effects In Charged Particle Transport In Nanochannels. David A. Boy, Maria Napoli, Frederic Gibou, Igor Mezic, and Sumita Pennathur. Mechanical Engineering, UCSB, Santa Barbara, CA 93106. Fluid ...
Bulletin of the American Physical …, Jan 1, 2008
Recent work has investigated the dispersion and separation of charged molecules in nanochannels. ... more Recent work has investigated the dispersion and separation of charged molecules in nanochannels. One conclusion has been that the combination of transverse velocity and electric field gradients can provide a mechanism for separation of different-valence ionic species. ...
Bulletin of the American Physical Society, Jan 1, 2006
Microfluidic applications involving induced charge electroosmosis often rely upon having closely ... more Microfluidic applications involving induced charge electroosmosis often rely upon having closely spaced electrodes inside the device. High electric fields are generated at relatively low voltage, which can drive significant flow. Even at low voltage, Faradaic reactions are ...