Wavelength-dependence of the photothermal efficiency of gold nanoparticles in solution by Z-scan photothermal lens spectroscopy - Université d'Angers
Article Dans Une Revue Chemical Physics Letters Année : 2023

Wavelength-dependence of the photothermal efficiency of gold nanoparticles in solution by Z-scan photothermal lens spectroscopy

Résumé

Using continuous-wave (cw) single-beam Z-scan technique, the absorption and scattering efficiencies of spherical gold nanoparticles (NPs) of varying diameter are determined experimentally through the thermal lens (TL) effect for three different wavelengths in the blue, the green and the red. The main characteristics of the measurement method are detailed, extending the usual experimental procedure for weak absorption with Gaussian beams to higher absorption with top-hat beams. To confirm the validity of our approach, the experimental TL data were compared to the theoretical values from Mie theory and found to be in good agreement within the experimental errors. As expected, the photothermal efficiency of spherical gold NPs increases with lower diameters and towards shorter wavelengths.
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Dates et versions

hal-04087188 , version 1 (23-11-2023)

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Julien-Bilal Zinoune, Christophe Cassagne, Martinus H.V. Werts, Matthieu Loumaigne, Mihaela Chis, et al.. Wavelength-dependence of the photothermal efficiency of gold nanoparticles in solution by Z-scan photothermal lens spectroscopy. Chemical Physics Letters, 2023, 823, pp.140501. ⟨10.1016/j.cplett.2023.140501⟩. ⟨hal-04087188⟩
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