Fabrication and optical properties of polymeric waveguides containing nanocrystalline quantum dots

We report on the fabrication of polymer waveguides containing infrared-emitting nanocrystal quantum dots. Both PbSe and InAs nanocrystal quantum dots are incorporated into a fluorinated polymer by a surface functionalization method. The optical properties of the nanocrystal quantum dots are shown to...

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Veröffentlicht in:	Applied physics letters 2004-11, Vol.85 (19), p.4469-4471
Hauptverfasser:	Olsson, Ylva K., Chen, Gang, Rapaport, Ronen, Fuchs, Dan T., Sundar, Vikram C., Steckel, Jonathan S., Bawendi, Moungi G., Aharoni, Assaf, Banin, Uri
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container_end_page	4471
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container_title	Applied physics letters
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creator	Olsson, Ylva K. Chen, Gang Rapaport, Ronen Fuchs, Dan T. Sundar, Vikram C. Steckel, Jonathan S. Bawendi, Moungi G. Aharoni, Assaf Banin, Uri
description	We report on the fabrication of polymer waveguides containing infrared-emitting nanocrystal quantum dots. Both PbSe and InAs nanocrystal quantum dots are incorporated into a fluorinated polymer by a surface functionalization method. The optical properties of the nanocrystal quantum dots are shown to be unaffected by the entire fabrication process. This method may provide a versatile platform for integration of nanocrystal quantum dots into planar photonic circuits.
doi_str_mv	10.1063/1.1818723
format	Article
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title	Fabrication and optical properties of polymeric waveguides containing nanocrystalline quantum dots
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