TY - JOUR
T1 - Near-infrared imaging with quantum-dot-sensitized organic photodiodes
AU - Rauch, Tobias
AU - Böberl, Michaela
AU - Tedde, Sandro F.
AU - Fürst, Jens
AU - Kovalenko, Maksym V.
AU - Hesser, Günter
AU - Lemmer, Uli
AU - Heiss, Wolfgang
AU - Hayden, Oliver
N1 - Funding Information:
W.H. and M.K. are grateful for support from the Austrian Science Fund FWF (projects START Y179 and SFB-Iron).
PY - 2009/6
Y1 - 2009/6
N2 - Solution-processed photodiodes with infrared sensitivities at wavelengths beyond the bandgap of silicon (corresponding to a wavelength of 1,100nm) would be a significant advance towards cost-effective imaging. Colloidal quantum dots are highly suitable as infrared absorbers for photodetection, but high quantum yields have only been reported with photoconductors. For imaging, photodiodes are required to ensure low-power operation and compatibility to active matrix backplanes. Organic bulk heterojunctions are attractive as solution-processable diodes, but are limited to use in the visible spectrum. Here, we report the fabrication and application of hybrid bulk heterojunction photodiodes containing PbS nanocrystalline quantum dots as sensitizers for near-infrared detection up to 1.8νm, with rectification ratios of 6,000, minimum lifetimes of one year and external quantum efficiencies of up to 51%. By integration of the solution-processed devices on amorphous silicon active matrix backplanes, we demonstrate for the first time near-infrared imaging with organic/inorganic hybrid photodiodes.
AB - Solution-processed photodiodes with infrared sensitivities at wavelengths beyond the bandgap of silicon (corresponding to a wavelength of 1,100nm) would be a significant advance towards cost-effective imaging. Colloidal quantum dots are highly suitable as infrared absorbers for photodetection, but high quantum yields have only been reported with photoconductors. For imaging, photodiodes are required to ensure low-power operation and compatibility to active matrix backplanes. Organic bulk heterojunctions are attractive as solution-processable diodes, but are limited to use in the visible spectrum. Here, we report the fabrication and application of hybrid bulk heterojunction photodiodes containing PbS nanocrystalline quantum dots as sensitizers for near-infrared detection up to 1.8νm, with rectification ratios of 6,000, minimum lifetimes of one year and external quantum efficiencies of up to 51%. By integration of the solution-processed devices on amorphous silicon active matrix backplanes, we demonstrate for the first time near-infrared imaging with organic/inorganic hybrid photodiodes.
UR - http://www.scopus.com/inward/record.url?scp=67049151951&partnerID=8YFLogxK
U2 - 10.1038/nphoton.2009.72
DO - 10.1038/nphoton.2009.72
M3 - Article
AN - SCOPUS:67049151951
SN - 1749-4885
VL - 3
SP - 332
EP - 336
JO - Nature Photonics
JF - Nature Photonics
IS - 6
ER -