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Communication Dans Un Congrès Année : 2023

Tuning Photoacoustic Generation in Water with Nanotransducers via Laser Pulse Duration

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Abstract— The photoacoustic effect in liquids, generated by nanotransducers excited withshort laser pulses, offers high contrast imaging and promising medical treatment techniques.Understanding the role of the thermal boundary resistance (TBR) and the laser pulse durationin the generation mechanism of acoustic waves is essential to implement efficient photoacousticnanotransducers [1–3]. This work theoretically investigates, for the paradigmatic case ofwater-immersed gold nanoplates, gold-nanocylinders [2] and carbon nanotubes [3], the role of theTBR [4] and laser pulse duration in the competition between the launching mechanisms: thethermophone and the mechanophone. In the thermophone, the nanoparticle acts as a nanoheaterand the wave is launched by water thermal expansion. In the mechanophone, the nanoparticledirectly acts as a nanopiston. Specifically, for a laser pulse duration far exceeding the heat transfertime from the nanostructure to the surronunding water, the thermophone prevails. For theopposite case the mechanophone dominates. Activation of the mechanophone effect is sought totrigger few nanometers wavelength sound waves in water, matching the nanotransducer acousticfrequencies. This is at variance with respect to the commonly addressed case of water-immersednanotransducer excited with ns laser pulses, where only the thermophone effect significantly contributes.The present findings might be of impact in fields ranging from nanoscale non-destructivetesting to water dynamics at the meso to nanoscale. Furthermore, the results point to high-TBR,liquid-immersed nanoparticles as potentially efficient photoacoustic nanogenerators [5], with theadvantage of keeping the liquid environment temperature unaltered.REFERENCES1. Prost, A., F. Poisson, and E. Bossy, “Photoacoustic generation by a gold nano-sphere: Fromlinear to nonlinear thermoelastics in the long-pulse illumination regime,” Phys. Rev. B, Vol. 92,115450, 2015.2. Diego, M., M. Gandolfi, S. Giordano, F. Vialla, A. Crut, F. Vall´ee, P. Maioli, N. Del Fatti,and F. Banfi, “Tuning photoacoustics with nanotransducers via thermal boundary resistanceand laser pulse duration,” Appl. Phys. Lett., Vol. 121, 252201, 2022.3. Diego, M., M. Gandolfi, A. Casto, F. M. Bellussi, F. Vialla, A. Crut, S. Roddaro, M. Fasano,F. Vall´ee, N. Del Fatti, P. Maioli, and F. Banfi, “Ultrafast nano generation of acoustic wavesin water via a single carbon nanotube,” Photoacoustics, Vol. 28, 100407, 2022.4. Casto, A., F. M. Bellussi, M. Diego, N. Del Fatti, F. Banfi, P. Maioli, and M. Fasano, “Waterfilling in carbon nanotubes with different wettability and implications on nanotube/water heattransfer via atomistic simulations,” Int. J. Heat Mass Transf., Vol. 205, 123868, 2023.5. Yu, K., Y. Yang, J. Wang, G. V. Hartland, and G. P. Wang, “Nanoparticle-fluid interactionsat ultrahigh acoustic vibration frequencies studied by femtosecond time-resolved microscopy,”ACS Nano, Vol. 15, 1833–1840, 2021.
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hal-04115625 , version 1 (13-10-2023)

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  • HAL Id : hal-04115625 , version 1

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M. Diego, M. Gandolfi, Stefano Giordano, F. Vialla, A. Crut, et al.. Tuning Photoacoustic Generation in Water with Nanotransducers via Laser Pulse Duration. PhotonIcs and Electromagnetics Research Symposium, also known as Progress In Electromagnetics Research Symposium (PIERS 2023), The Electromagnetics Academy (TEMA), Jul 2023, Prague, Czech Republic. ⟨hal-04115625⟩
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