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The authors have proposed and demonstrated nanocrystal hybridization of silicon based solar cells for enhanced photovoltaics in the ultraviolet (UV) part of the light spectrum, which is critically important since the UV range makes up around 12% of the entire solar spectrum.
We demonstrated material-specific binding of the quantum dot emitters hybridized with GEPI on multi-material patterned microchips. These proof-of-concept results open up new opportunities in nanophotonics, allowing for more specific and controlled assembly of quantum dots in optoelectronic devices and building of novel molecular organic-inorganic hybrid devices.
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