A
Ali Beskok
Researcher at Southern Methodist University
Publications - 148
Citations - 7350
Ali Beskok is an academic researcher from Southern Methodist University. The author has contributed to research in topics: Knudsen number & Dielectrophoresis. The author has an hindex of 39, co-authored 145 publications receiving 6621 citations. Previous affiliations of Ali Beskok include Washington State University & Old Dominion University.
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Surface–gas interaction effects on nanoscale gas flows
Murat Barisik,Ali Beskok +1 more
TL;DR: In this paper, the authors used the molecular dynamics method to simulate shear driven argon gas flows in the early transition and free molecular flow regimes to investigate surface effects as a function of the surface-gas potential strength ratio (ewf/eff).
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Model study of electroporation effects on the dielectrophoretic response of spheroidal cells
TL;DR: It is shown that poration could be utilized as an additional flexible tool for cell separation and the possibility of judiciously selecting electrical parameters for effective cell separation or tumor detection, especially in high conductivity media.
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Electric field controlled transport of water in graphene nano-channels
TL;DR: Motivated by electrowetting-based flow control in nano-systems, water transport in graphene nano-channels is investigated as a function of the applied electric field, finding force-driven water flows under electric fields exhibit asymmetric velocity profiles and unequal slip lengths.
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Molecular dynamics modeling of thermal resistance at argon-graphite and argon-silver interfaces
TL;DR: In this paper, the authors investigated heat conduction between two parallel solid walls separated by liquid argon using three-dimensional molecular dynamics simulations and developed a phenomenological model for the Kapitza length.
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Heat transfer enhancement in a straight channel via a rotationally oscillating adiabatic cylinder
TL;DR: In this paper, a rotationally oscillating cylinder (ROC) was used to simulate convection from the uniformly heated walls of a straight channel in presence of a ROC, and the simulation results were based on the numerical solutions of two-dimensional, unsteady, incompressible Navier-Stokes and energy equations using an h/p type finite element algorithm.