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Beilstein J. Nanotechnol. 2017, 8, 2438–2445, doi:10.3762/bjnano.8.242
Figure 1: (a) TEM image of the material ablated in open air and the size distribution of the nanoparticles pr...
Figure 2: XRD pattern of a Au nanostructure produced by PLD in open air under standard on-axis configuration ...
Figure 3: XPS spectra of Au nanostructures produced by PLD in open air in a standard on-axis configuration (g...
Figure 4: SEM images of the Au nanostructures deposited using (a) geometry 1, (b) geometry 2, (c) geometry 3,...
Figure 5: Optical transmission spectra of the Au nanostructures deposited at different geometries.
Figure 6: Modification of the Au nanostructure resistance by irradiation with infrared light.
Beilstein J. Nanotechnol. 2014, 5, 2102–2112, doi:10.3762/bjnano.5.219
Figure 1: SEM images and size distributions (with the mean diameter value in brackets and standard deviation,...
Figure 2: Absorbance spectra (normalized): a) profiles a, b, and c of nanostructures shown in Figure 1a, b, and c, res...
Figure 3: The particle size influence on the resonance peak position (circles) and linewidth (squares) of the...
Figure 4: Influence of the gold NP size on the dephasing time of the plasmonic resonance; data from this work...
Figure 5: Near-field intensity distributions in the vicinity of Au nanoarrays on SiO2 glass: a) scheme of the...
Figure 6: Raman spectra of a 10−5 M dried solution of rhodamine R6G deposited on laser-nanostructured thin Au...
Figure 7: a) Voltammetric curves of the reference electrodes of uncovered ITO and covered by non-processed 10...