0000000000236774

AUTHOR

Francesca De Simone

showing 3 related works from this author

Light absorption and electrical transport in Si:O alloys for photovoltaics

2010

Thin films (100-500 nm) of the Si:O alloy have been systematically characterized in the optical absorption and electrical transport behavior, by varying the Si content from 43 up to 100 at. %. Magnetron sputtering or plasma enhanced chemical vapor deposition have been used for the Si:O alloy deposition, followed by annealing up to 1250 °C. Boron implantation (30 keV, 3-30× 1014 B/cm2) on selected samples was performed to vary the electrical sheet resistance measured by the four-point collinear probe method. Transmittance and reflectance spectra have been extracted and combined to estimate the absorption spectra and the optical band gap, by means of the Tauc analysis. Raman spectroscopy was …

Materials scienceAbsorption spectroscopyFour-pointAnalytical chemistryGeneral Physics and AstronomyAbsorption coefficientChemical vapor depositionBoron implantationSettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della Materiasymbols.namesakeElectrical resistivity and conductivityPlasma-enhanced chemical vapor depositionThin filmAbsorption (electromagnetic radiation)Electrical sheet resistanceSi contentSEMIINSULATING POLYCRYSTALLINE SILICON; SOLAR-CELLS; 3RD-GENERATION PHOTOVOLTAICS; OPTICAL-PROPERTIES; AMORPHOUS-SILICON; THIN-FILMS; CRYSTALLINEOptical absorptionProbe methodElectrical resistivityAlloy depositionSputter depositionElectrical transportsymbolsOxygen-rich siliconRaman spectroscopyOptical gapReflectance spectrumPhotovoltaic
researchProduct

Light absorption and conversion in solar cell based on Si:O alloy

2013

Thin film Si:O alloys have been grown by plasma enhanced chemical vapor deposition, as intrinsic or highly doped (1 to 5 at. % of B or P dopant) layers. UV-visible/near-infrared spectroscopy revealed a great dependence of the absorption coefficient and of the optical gap (Eg) on the dopant type and concentration, as Eg decreases from 2.1 to 1.9 eV, for the intrinsic or highly p-doped sample, respectively. Thermal annealing up to 400 °C induces a huge H out-diffusion which causes a dramatic absorption increase and a reduction of Eg, down to less than 1.8 eV. A prototypal solar cell has been fabricated using a 400 nm thick, p-i-n structure made of Si:O alloy embedded within flat transparent c…

Open circuit voltageSiliconAbsorption co-efficientMaterials scienceAnnealing (metallurgy)Analytical chemistryGeneral Physics and AstronomyPhotovoltaic effectChemical vapor depositionSettore ING-INF/01 - Elettronicalaw.inventionPlasma enhanced chemical vapor depositionOut-diffusionPlasma-enhanced chemical vapor depositionlawSolar cellDoping (additives)Thin filmAbsorption (electromagnetic radiation)Infrared spectroscopyElectrical analysiDopantDopingP-i-n structureDevice fabricationThermal-annealingSolar cells Silicon alloysPhotovoltaicTransparent conductive oxides Cerium alloyJournal of Applied Physics
researchProduct

Formation and Evolution of Nanoscale Metal Structures on ITO Surface by Nanosecond Laser Irradiations of Thin Au and Ag Films

2012

The effect of nanosecond laser irradiations on 5 nm thick sputter-deposited Au and Ag films on Indium-Tin-Oxide surface is investigated by atomic force microscopy (AFM) and scanning electron microscopy (SEM). After 500, 750, and 1000 mJ/cm 2 fluence irradiations, the breakup of the Au and Ag films into nanoscale islands is observed as a consequence of fast melting and solidification processes. The mean nanoparticles size and surface density are quantified, as a function of the laser fluence, by the AFM and SEM analyses. In particular, the comparison between the Au and Ag islands reveals the formation of larger islands in the case of Ag for each fixed fluence. The mechanism of the nanoscale …

NanoclusterMaterials scienceNanosecond laser irradiationScanning electron microscopeITO; Laser; Au; AgLaserNanoparticleNanotechnologyAgSettore ING-INF/01 - ElettronicaMolecular physicsFluenceSettore FIS/03 - Fisica Della MateriaMetalAtomic force microscopyAuGeneral Materials ScienceDewettingNanostructuringNanoscopic scaleBreakupvisual_artvisual_art.visual_art_mediumGoldNanosecond laserITO
researchProduct