2017
DOI: 10.1039/c6sm01603k
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Shape oscillations of particle-coated bubbles and directional particle expulsion

Abstract: Ultrasound waves drive shape oscillations of particle-coated microbubbles. During the ultrafast, non-uniform deformation of the interface, particles are expelled from the antinodes of the shape oscillations.

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Cited by 34 publications
(33 citation statements)
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“…It is also interesting to note that this simple criterion is in qualitative agreement with the data provided by Poulichet et al 18 . Indeed, in their experiments, the latex particle size and density are respectively R p = 250 nm and ρ p = 1040 kg m −3 , the air-liquidparticle contact angle is θ p ≈ 45 o 17 , the frequency of excitation is f e = 40 kHz, the surface tension is γ GL ≈ 70 mN m −1 and the amplitude of oscillation required for the particles dispersion is typically 50 µm.…”
Section: Particle Expulsion From Spherical Armoured Bubblessupporting
confidence: 90%
“…It is also interesting to note that this simple criterion is in qualitative agreement with the data provided by Poulichet et al 18 . Indeed, in their experiments, the latex particle size and density are respectively R p = 250 nm and ρ p = 1040 kg m −3 , the air-liquidparticle contact angle is θ p ≈ 45 o 17 , the frequency of excitation is f e = 40 kHz, the surface tension is γ GL ≈ 70 mN m −1 and the amplitude of oscillation required for the particles dispersion is typically 50 µm.…”
Section: Particle Expulsion From Spherical Armoured Bubblessupporting
confidence: 90%
“…Sustained non-spherical oscillations due to shape instabilities of particle-coated bubbles were also reported [77,75]. In this case, particle expulsion is localized at the antinodes of the shape oscillations [ Figure 4…”
Section: Extreme Deformation: High-rate or Unsteadymentioning
confidence: 65%
“…Gas diffuses out of the bubbles leading to a decrease in volume. The layer of particles behaves as a solid-like film and crumples upon area compression, without any apparent shedding of particles, in contrast to latex-stabilized air bubbles dissolving in water upon cooling 14 or undergoing compression by other mechanisms 33,34 . We checked the effect of the rate of area compression on this mechanical instability of the particle layer by changing the heating rate.…”
Section: Resultsmentioning
confidence: 99%