2022
DOI: 10.1021/acs.langmuir.2c01702
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Electrophoresis of Dielectric and Hydrophobic Spherical Fluid Droplets Possessing Uniform Surface Charge Density

Abstract: The present article deals with the theoretical study on electrophoresis of hydrophobic and dielectric spherical fluid droplets possessing uniform surface charge density. Unlike the ideally polarizable liquid droplet bearing constant surface ζ-potential, the tangential component of the Maxwell stress is nonzero for dielectric fluid droplets with uniform surface charge density. We consider the continuity of the tangential component of total stress (sum of the hydrodynamic and Maxwell stresses) and jump in dielec… Show more

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Cited by 8 publications
(26 citation statements)
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“…We compare our results to theoretical descriptions of EP mobilityof hydrophobic spherical fluid droplets to further scrutinize the behavior of the droplets. 32 We define the positive direction for motion in the same direction as the electric field, meaning that if a positive velocity is reported the motion was from the anode (positive electrode) to the cathode (negative electrode). For all experiments it is assumed that surfactant monomers interact with the PDMS or droplets through their hydrophobic tails, so their head group is exposed to the bulk solution.…”
Section: Resultsmentioning
confidence: 99%
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“…We compare our results to theoretical descriptions of EP mobilityof hydrophobic spherical fluid droplets to further scrutinize the behavior of the droplets. 32 We define the positive direction for motion in the same direction as the electric field, meaning that if a positive velocity is reported the motion was from the anode (positive electrode) to the cathode (negative electrode). For all experiments it is assumed that surfactant monomers interact with the PDMS or droplets through their hydrophobic tails, so their head group is exposed to the bulk solution.…”
Section: Resultsmentioning
confidence: 99%
“…In order to further understand the observed droplet motion with changing pH, we compare our experimental results to previously published analytical descriptions of droplet motion under different conditions. 32,33 P. Gopmandal et al 32 developed an analytical expression for the EP mobility of hydrophobic and dielectric spherical fluid droplets. Their equation can be simplified as follow when κa ≫ 1:…”
Section: Resultsmentioning
confidence: 99%
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