2007
DOI: 10.1016/j.snb.2006.09.043
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Physiochemical microparticle sensors based on nonlinear magnetic oscillations

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Cited by 62 publications
(78 citation statements)
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“…Janus particles were initially introduced by Casagrade et al in 1989, [21] but it took the mention of Janus grains in de Gennes' Nobel Lecture [23] in 1991 to bring these particles to the general attention of researchers worldwide. Over the last two decades, many fabrication methods for Janus particles have been developed, [14] including scalable ones, and the particles are now being implemented in new technologies such as emulsions, [44,45] electronic paper, [46][47][48] tunable liquid optics, [49] sensors [50] and microrheological probes. [51][52][53] Fabrication methods for various types of Janus particles, ranging from bicompartmental and dumbbell-like to half-rasberry, arconand snowman-like particles, have been comprehensively reviewed by Perro and co-workers.…”
Section: Definition Of the Term Patchy Particlementioning
confidence: 99%
“…Janus particles were initially introduced by Casagrade et al in 1989, [21] but it took the mention of Janus grains in de Gennes' Nobel Lecture [23] in 1991 to bring these particles to the general attention of researchers worldwide. Over the last two decades, many fabrication methods for Janus particles have been developed, [14] including scalable ones, and the particles are now being implemented in new technologies such as emulsions, [44,45] electronic paper, [46][47][48] tunable liquid optics, [49] sensors [50] and microrheological probes. [51][52][53] Fabrication methods for various types of Janus particles, ranging from bicompartmental and dumbbell-like to half-rasberry, arconand snowman-like particles, have been comprehensively reviewed by Perro and co-workers.…”
Section: Definition Of the Term Patchy Particlementioning
confidence: 99%
“…Depending on the nature of the colloid, this response can be monitored (i.e., fluorescence) enabling the probing of interactions with the surrounding fluid. For example, Kopleman's group [65,68] has shown that magnetically modulated optical nanoprobes (magMOONs) can be used as rheological probes by monitoring the critical slipping rate (Ω c ). Ω c can be determined by measuring the rotation rate of a magMOON at an external rotational rate Ω larger than Ω c .…”
Section: Field Interactionmentioning
confidence: 99%
“…One can now determine physical values of the surrounding medium by measuring an average nonlinear rotation rate (δΘ/δt) where Θ is the rotation angle of the sphere with respect to the applied field and solving Eq. (1) for m, B, κ, η, or V. In their studies, McNaughton et al [68] have applied this approach to the determination of the interparticle magnetic moment of magnetic colloids, the temperature-dependence of the viscosity of glucose, the dynamics of binding of molecules to the probe particle, and the estimation of shape factors.…”
Section: Field Interactionmentioning
confidence: 99%
“…Such measurements are straightforward using optically anisotropic probes such as half-coated microspheres or dimers of particles [13]. For the microspheres used in the experiments described here, incorporation of optical anisotropy is ideal as long as the particle surface roughness remains unaffected.…”
Section: Discussionmentioning
confidence: 99%
“…Drastic changes in the rotational motion of micro-objects are characteristic of the behavior of overdamped driven nonlinear oscillators [4,[12][13][14][15]. Such systems exhibit two classes of motional behavior: (1) linear phase-locked rotation at low external driving frequencies and (2) nonlinear phase-slipping rotation at high external driving frequencies.…”
Section: Introductionmentioning
confidence: 99%