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Beilstein J. Nanotechnol. 2020, 11, 494–507, doi:10.3762/bjnano.11.40
Figure 1: Side view of a part of the simulation setup, illustrating the shape of the Ag nanoparticles, modell...
Figure 2: Top view of the simulation setup.
Figure 3: SEM images of the films after annealing at 250 °C for 15 min. Initial film thickness was: (a) 1 nm,...
Figure 4: SEM images of the films after annealing at 550 °C for 15 min. Initial film thickness was: (a) 1 nm,...
Figure 5: The dependence of the island diameter on the thickness of the initial film, calculated for Ag films...
Figure 6: SEM images of a 2.8 nm thick film, annealed at a constant temperature of 550 °C for different perio...
Figure 7: SEM images of a 2.8 nm thick film, annealed for a constant time 15 min at different temperatures: (...
Figure 8: (a) HRTEM image of a cross section of a nanoisland formed from a 3 nm thick film, annealed at 550 °...
Figure 9: Absorbance of nanostructures formed from thin films with different thickness, annealed at (a) 250 °...
Figure 10: Calculated scattering efficiencies (absorption, scattering and extinction) in air obtained from Mie...
Figure 11: Absorbance of nanostructures formed from 2.8 nm thick films (a) annealed at 100, 200, 300, 400, 500...
Figure 12: (a) Ag 3d and (b) Ag 4d XPS spectra of bulk Ag and Ag nanostructures grown after annealing of 2 nm ...
Figure 13: a) Calculated intensity distribution of the electromagnetic field integrated on the plane where nan...
Figure 14: Calculated amplitudes of the components of the electromagnetic field in the plane where the nanopar...
Figure 15: Calculated amplitudes of the components of the electromagnetic field as a function of the time, at ...
Figure 16: Calculated absorbance log(Φi/Φt), where Φi and Φt are incident and transmitted flux, respectively, ...
Figure 17: Positions of a) the first and b) the second absorbance maxima (corresponding to the quadrupole and ...