On the rigidity of four hundred Pickering-stabilised microbubbles

Anderton, Nicole; Carlson, Craig S.; Matsumoto, Ryunosuke; Shimizu, Ri-ichiro; Poortinga, Albert T.; Kudo, Nobuki; Postema, Michiel

On the rigidity of four hundred Pickering-stabilised microbubbles

Anderton, Nicole; Carlson, Craig S.; Matsumoto, Ryunosuke; Shimizu, Ri-ichiro; Poortinga, Albert T.; Kudo, Nobuki; Postema, Michiel (2022-04-29)

Avaa tiedosto

Anderton_et_al_2022_Jpn._J._Appl._Phys._10.35848_1347_4065_ac4adc.pdf (352.9Kt)

Lataukset:

Anderton, Nicole

Carlson, Craig S.

Matsumoto, Ryunosuke

Shimizu, Ri-ichiro

Poortinga, Albert T.

Kudo, Nobuki

Postema, Michiel

29.04.2022

Japanese Journal of Applied Physics
SG8001

doi:10.35848/1347-4065/ac4adc

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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tuni-202211038153

Kuvaus

Peer reviewed

Tiivistelmä

This study explores the rigidity of Pickering-stabilised microbubbles subjected to low-amplitude ultrasound. Such microbubbles might be suitable ultrasound contrast agents. Using an adapted Rayleigh-Plesset equation, we modelled the dynamics of microbubbles with a 7.6-N m-1 shell stiffness under 1-MHz, 0.2-MPa sonication. Such dynamics were observed experimentally, too, using high-speed photography. The maximum expansions were agreeing with those predicted for Pickering-stabilised microbubbles. Subjecting microbubbles to multiple time-delayed pulses yielded the same result. We conclude that Pickering-stabilised microbubbles remain very stable at low acoustic amplitudes.

Kokoelmat

TUNICRIS-julkaisut [20189]