2012
DOI: 10.1002/elps.201100643
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Dielectrophoresis force spectroscopy for colloidal clusters

Abstract: Optical trapping-based force spectroscopy was used to measure the frequency-dependent DEP forces and DEP crossover frequencies of colloidal polymethyl methacrylate spheres and clusters. A single sphere or cluster, held by an optical tweezer, was positioned near the center of a pair of gold-film electrodes where alternating current elecroosmosis flow was negligible. Use of amplitude modulation and phase-sensitive lock-in detection for accurate measurement of the DEP force yielded new insight into dielectric rel… Show more

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Cited by 11 publications
(15 citation statements)
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“…The particle was positioned near the center between the electrode tips to minimize the influence from AC electroosmosis, which, the same as DEP, is also E 2 dependent. 25 We use the same design principals described in details before 3,4 to determine the DEP crossover frequencies. Here, a 3 Vpp AC at radial frequencies was applied across the pair of electrodes, creating an electric field gradient.…”
Section: Optical Tweezers-based Force Sensormentioning
confidence: 99%
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“…The particle was positioned near the center between the electrode tips to minimize the influence from AC electroosmosis, which, the same as DEP, is also E 2 dependent. 25 We use the same design principals described in details before 3,4 to determine the DEP crossover frequencies. Here, a 3 Vpp AC at radial frequencies was applied across the pair of electrodes, creating an electric field gradient.…”
Section: Optical Tweezers-based Force Sensormentioning
confidence: 99%
“…The technique was introduced in our previous research on DEP-based lab-on-a-chip applications and was used for measurements of the DEP crossover frequency of individual micro colloidal particles 3 as well as that of clusters formed by geometrical stacking of spheres. 4 Those studies did not fully address the underlying mechanisms that would confirm the dielectric response function of charged colloidal particles as suggested by Schwarz. 15 In this single-particle study, we aim to examine the counterion relaxation of individual charged colloidal particles and to provide the microscopic foundation of the bulk dielectric response function as established by Schwarz. 15 Here, we measure the DEP crossover frequency of an individual particle as a function of particles radius, medium viscosity, and temperature.…”
Section: Introductionmentioning
confidence: 99%
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