Claire Bourquard scite author profile

Tough bioadhesion has important implications in engineering and medicine but remains challenging to form and control. We report an ultrasound (US)–mediated strategy to achieve tough bioadhesion with controllability and fatigue resistance. Without chemical reaction, the US can amplify the adhesion energy and interfacial fatigue threshold between hydrogels and porcine skin by up to 100 and 10 times. Combined experiments and theoretical modeling suggest that the key mechanism is US-induced cavitation, which propels and immobilizes anchoring primers into tissues with mitigated barrier effects. Our strategy achieves spatial patterning of tough bioadhesion, on-demand detachment, and transdermal drug delivery. This work expands the material repertoire for tough bioadhesion and enables bioadhesive technologies with high-level controllability.

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Whistling of deep cavities subject to turbulent grazing flow: intermittently unstable aeroacoustic feedback

Bourquard

Faure-Beaulieu

Noiray

2020

J. Fluid Mech.

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Modeling the nonlinear aeroacoustic response of a harmonically forced side branch aperture under turbulent grazing flow

et al. 2021

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Low order modelling of thermoacoustic instabilities and intermittency: Flame response delay and nonlinearity

Bonciolini

Faure-Beaulieu

Bourquard

et al. 2021

Combustion and Flame

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Processing time-series of randomly forced self-oscillators: The example of beer bottle whistling

Boujo

Bourquard

Xiong

et al. 2020

Journal of Sound and Vibration

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