A plasmonic enhanced photodetector based on silicon nanocrystals obtained through laser ablation
Oruc, F. B.
Kosger, A. C.
Okyay, A. K.
Journal of Optics
125001-1 - 125001-5
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Alkis, S., Oruç, F. B., Ortaç, B., Koşger, A. C., & Okyay, A. K. (2012). A plasmonic enhanced photodetector based on silicon nanocrystals obtained through laser ablation. Journal of Optics, 14(12), 125001.
Please cite this item using this persistent URLhttp://hdl.handle.net/11693/11944
We present a proof-of-concept photodetector which is sensitive in the visible spectrum. Silicon nanocrystals (Si-NCs) obtained by laser ablation are used as the active absorption region. Si-NC films are formed from a polymeric dispersion. The films are sandwiched between thin insulating films to reduce the electrical leakage current. Furthermore, Ag nanoparticles are integrated with the photodetector to enhance the visible response using plasmonic effects. The measured photocurrent is resonantly enhanced, which is explained in terms of enhanced local fields caused by localized plasmons. The UV–vis spectrum of Ag nanoparticles is also measured to verify the resonance.