Search results for "Ge quantum dot"

showing 2 items of 2 documents

High-efficiency silicon-compatible photodetectors based on Ge quantum dots

2011

We report on high responsivity, broadband metal/insulator/semiconductor photodetectors with amorphous Ge quantum dots (a-Ge QDs) as the active absorbers embedded in a silicon dioxide matrix. Spectral responsivities between 1-4 A/W are achieved in the 500-900 nm wavelength range with internal quantum efficiencies (IQEs) as high as ∼700%. We investigate the role of a-Ge QDs in the photocurrent generation and explain the high IQE as a result of transport mechanisms via photoexcited QDs. These results suggest that a-Ge QDs are promising for high-performance integrated optoelectronic devices that are fully compatible with silicon technology in terms of fabrication and thermal budget. © 2011 Amer…

Amorphous siliconMaterials scienceThermal budgetPhysics and Astronomy (miscellaneous)SiliconSilicon TechnologieResponsivitychemistry.chemical_elementSettore ING-INF/01 - Elettronicachemistry.chemical_compoundResponsivityMetal/insulator/semiconductorGe quantum dotWavelength ranges Amorphous siliconPhotocurrent generationPhotodetectorOptoelectronic devicePhotocurrentGermaniumbusiness.industrySemiconductor quantum dotInternal quantum efficiencymatrixTRANSPORTSemiconductorNANOCRYSTALSSilica Quantum efficiencychemistryQuantum dot laserQuantum dotOptoelectronicsQuantum efficiencyTransport mechanismGAINbusinessNANOCRYSTALS TRANSPORT GAINFully compatibleHigh efficiency
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Light harvesting with Ge quantum dots embedded in SiO2 and Si3N4

2014

Cataloged from PDF version of article. Germanium quantum dots (QDs) embedded in SiO2 or in Si3N4 have been studied for light harvesting purposes. SiGeO or SiGeN thin films, produced by plasma enhanced chemical vapor deposition, have been annealed up to 850 degrees C to induce Ge QD precipitation in Si based matrices. By varying the Ge content, the QD diameter can be tuned in the 3-9 nm range in the SiO2 matrix, or in the 1-2 nm range in the Si3N4 matrix, as measured by transmission electron microscopy. Thus, Si3N4 matrix hosts Ge QDs at higher density and more closely spaced than SiO2 matrix. Raman spectroscopy revealed a higher threshold for amorphous-to-crystalline transition for Ge QDs e…

Light-harvestingMaterials sciencegenetic structuresBand gapAnalytical chemistryGeneral Physics and AstronomyPhotodetectorchemistry.chemical_elementGermaniumGermanium NanocrystalsSettore ING-INF/01 - Elettronicasymbols.namesakeGe quantum dotPlasma-enhanced chemical vapor depositionThin filmFilmsbusiness.industrySilicon-nitridechemistryQuantum dotsymbolsOptoelectronicsQuantum efficiencyMechanismbusinessRaman spectroscopyConfinement
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