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Deformation and stress experienced by a cell during the droplet impact step of the cell printing process.

Deformation and stress experienced by a cell during the droplet impact step of the cell printing process. Here is a movie showing the impact process. [Microfluidics and Nanofluidics, 2015]

Cyclic voltammetry of nanopores in ionic liquids-based supercapacitors.

Cyclic voltammetry of nanopores in ionic liquids-based supercapacitors. [J. Phys. Chem. Lett., 2015]

Internal state of nanopores undergoing cyclic voltammetry scans at different rates.

Internal state of nanopores undergoing cyclic voltammetry scans at different rates. [J. Phys. Chem. Lett., 2015]

Emergence of three dimensional electrical double layers from research in different fronts

Emergence of three dimensional electrical double layers from research in different fronts [J. Phys. Chem. 118, 18285, 2014].

Brownian motion of nanoparticles suspended in a bulk of fluids.

Brownian motion of nanoparticles suspended in a bulk of fluids. [J. Appl. Phys., 103, 094305, 2008]. Click here for a movie. A discussion of Brownian motion can be found at Wiki. [J. Appl. Phys., 103, 094305, 2008]

Translocation of pristine buckyball through DPPC bilayer.

Translocation of pristine buckyball through DPPC bilayer. [Nano Lett., 7, 614, 2007]

Modulation of electroosmotic flow by polymer simulated using dissipative particle dynamics.
Modulation of electroosmotic flow by polymer simulated using dissipative particle dynamics.

Modulation of electroosmotic flow by polymer simulated using dissipative particle dynamics. [Langmuir, 23, 5810, 2007]

Configuration of polymer, water and ions near a wall grafted with thin polymer layer.
Configuration of polymer, water and ions near a wall grafted with thin polymer layer.
Configuration of polymer, water and ions near a wall grafted with thin polymer layer.

Configuration of polymer, water and ions near a wall grafted with thin polymer layer. [Langmuir, 22, 7096, 2006]

Electroosmotic flow in a 0.95 nm wide channel (3 water diameters).
Electroosmotic flow in a 0.95 nm wide channel (3 water diameters).
Electroosmotic flow in a 0.95 nm wide channel (3 water diameters)

Electroosmotic flow in a 0.95 nm wide channel (3 water diameters). 

Announcements

  • Article Item
    Research assistantships available , article

    Multiple GRA openings are available in the Laboratory of Transport Phenomena for Advanced Technologies at Virginia Tech. The desired starting time is Spring 2023. The positions are for Ph.D. students interested in computational fluid dynamics, nanoscale transport phenomena, or molecular and interfacial phenomena.