Data di Pubblicazione:
2008
Abstract:
Polystyrene artificial opals having both different microsphere diameters and gold nanoparticles (AuNP) doping
levels have been prepared and their spectroscopic characterization has been performed. Reflectance spectra
of doped opals show a red shift of the photonic band gap and a reduction of its width and intensity upon
increasing AuNP doping level, but they do not show any direct evidence of AuNP plasmon resonance.
Transmittance spectra of the same samples recorded on the same spot area show, instead, a doping level
dependent line shape. For the highest doping level a complicated sigmoidal line shape due to the overlap of
broad AuNP absorption and photonic crystal stop band is observed. This unusual effect is accounted for by
considering the localization of standing electromagnetic waves within both the microspheres and the interstices
where the AuNP are embedded.
levels have been prepared and their spectroscopic characterization has been performed. Reflectance spectra
of doped opals show a red shift of the photonic band gap and a reduction of its width and intensity upon
increasing AuNP doping level, but they do not show any direct evidence of AuNP plasmon resonance.
Transmittance spectra of the same samples recorded on the same spot area show, instead, a doping level
dependent line shape. For the highest doping level a complicated sigmoidal line shape due to the overlap of
broad AuNP absorption and photonic crystal stop band is observed. This unusual effect is accounted for by
considering the localization of standing electromagnetic waves within both the microspheres and the interstices
where the AuNP are embedded.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Photonic crystal; artificial opals; optical switching
Elenco autori:
Morandi, Valentina; Marabelli, Franco; V., Amendola; M., Meneghetti; D., Comoretto
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