Photothermal Plasmonic Actuation of Micromechanical Cantilever Beams - Archive ouverte HAL
Article Dans Une Revue Physical Review Applied Année : 2021

Photothermal Plasmonic Actuation of Micromechanical Cantilever Beams

Résumé

Oscillations of charge carriers in plasmonic metal nanoparticles activated by resonant absorption of light are accompanied by local temperature increase due to non-radiative plasma damping. The control of this photothermal effect is considered essential for many applications ranging from photochemistry or nanomedicine to chemical/physical sensing. Here, we present a study on the conversion of visible light into mechanical energy via photothermal plasmonic and non-plasmonic effects. Using atomic force microscopy cantilevered sensors coated with various materials and excited in vacuum by a wavelength tunable laser, it is shown that light generates a resonant oscillation of the cantilever. The photoinduced oscillation amplitude depends on the wavelength of the incident light, allowing for an optimization of energy conversion based on absorption spectroscopy of the coating material. The effect of non-photonic forces acting on the cantilever is probed in the context of photoinduced force microscopy by placing the cantilever in interaction with a substrate surface at various distances. The findings are relevant for any technique utilizing an optical actuation of a mechanical system, and for photoinduced force detection methods in particular.
Fichier principal
Vignette du fichier
photothermal plasmonic actuation.pdf (1.26 Mo) Télécharger le fichier
Origine Fichiers produits par l'(les) auteur(s)

Dates et versions

hal-03281606 , version 1 (08-07-2021)

Identifiants

Citer

M.D. Pichois, M.A. Hurier, M. Vomir, A. Barsella, B. Donnio, et al.. Photothermal Plasmonic Actuation of Micromechanical Cantilever Beams. Physical Review Applied, 2021, 15 (3), pp.034020. ⟨10.1103/PhysRevApplied.15.034020⟩. ⟨hal-03281606⟩
17 Consultations
131 Téléchargements

Altmetric

Partager

More