Search results for "Silicon Solar Cells"

showing 7 items of 7 documents

Low-cost high-haze films based on ZnO nanorods for light scattering in thin c-Si solar cells

2015

Light scattering from ZnO nanorods (NR) is investigated, modeled, and applied to a solar cell. ZnO NR (120-1300 nm long, 280-60 nm large), grown by low-cost chemical bath deposition at 90 degrees C, exhibit diffused-to-total transmitted light as high as 70% and 30% in the 400 and 1000 nm wavelength range, respectively. Data and scattering simulation show that ZnO NR length plays a crucial role in light diffusion effect. A transparent ZnO NR film grown on glass and placed on top of a 1 mu m thick c-Si solar cell is shown to enhance the light-current conversion efficiency for wavelengths longer than 600 nm. (C) 2015 AIP Publishing LLC.

SiliconMaterials sciencePhysics and Astronomy (miscellaneous)SiliconZnO nanorod Silicon solar cellschemistry.chemical_elementNanorodSettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della MateriaLight scatteringlaw.inventionlawSolar cellZinc oxide C-Si solar cellChemical-bath depositionbusiness.industryScatteringSolar cellEnergy conversion efficiencyWide-bandgap semiconductorLight scatteringCurrent conversion efficiencychemistryLight diffusionScattering simulationOptoelectronicsNanorodTransmitted lightbusinessWavelength rangeChemical bath depositionApplied Physics Letters
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Broadband photocurrent enhancement in a-Si:H solar cells with plasmonic back reflectors

2014

The authors acknowledge Francesco Ruffino for the AFM measurements. This work was funded by the EU FP7 Marie Curie Action FP7-PEOPLE-2010-ITN through the PROPHET project (Grant No. 264687), the bilateral CNR/AVCR project "Photoresponse of nanostructures for advanced photovoltaic applications", the MIUR project Energetic (Grant no. PON02_00355_3391233) and by the Portuguese Science Foundation (FCT-MEC) through the Strategic Project PEst-C/CTM/LA0025/2013-14 and the research project PTDC/CTM-ENE/2514/2012. Plasmonic light trapping in thin film silicon solar cells is a promising route to achieve high efficiency with reduced volumes of semiconductor material. In this paper, we study the enhance…

SiliconMaterials scienceConformal growthSiliconchemistry.chemical_elementPlasmon02 engineering and technologyFILMS01 natural sciences7. Clean energySilver A-Si:H solar cellSettore ING-INF/01 - ElettronicaLight scatteringOptics0103 physical sciencesPhotocurrentFabrication parameterPlasmonic solar cellThin filmSILICONPhotocurrent enhancementPlasmon010302 applied physicsPhotocurrentbusiness.industryLight scattering021001 nanoscience & nanotechnologySolar energyScattering effectAtomic and Molecular Physics and OpticschemistryDiffuse reflectionOptoelectronicsDiffuse reflectionThin-film silicon solar cells Silicon solar cells0210 nano-technologybusinessSilver nanoparticle (NPs)Optics Express
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On the Variability of the Temperature Coefficients of mc-Si Solar Cells with Irradiance

2016

Abstract The temperature sensitivity of silicon solar cells is in general assumed to be constant with irradiance in PV forecasting models, although it has been demonstrated experimentally that this is not true. In this study a theoretical model is established that describes the variation of the temperature coefficients of a silicon solar cell as a function of the irradiance. It is shown that the temperature sensitivity of the solar cell efficiency is decreasing with the irradiance and that the main reason for this behavior comes from the increase of the open-circuit voltage with light intensity. Moreover, a dependency of the cell's ideality factor on the irradiance has to be assumed to rece…

Temperature sensitivitySiliconPhysics::Instrumentation and DetectorsirradianceIrradiancechemistry.chemical_element02 engineering and technology01 natural sciencesOpticsEnergy(all)ideality factor.0103 physical sciencesSilicon solar cell010302 applied physicsChemistrybusiness.industryTemperature coefficientsfood and beverages021001 nanoscience & nanotechnologyComputational physicsLight intensitySolar cell efficiencysilicon solar cellscompensated siliconAstrophysics::Earth and Planetary Astrophysics0210 nano-technologyConstant (mathematics)businessVoltageEnergy Procedia
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Electrical characterization of high-efficiency bifacial silicon solar cells

2018

This work presents a preliminary study on the electrical characterization of high efficiency bifacial solar cells. An opening discussion on the state-of-the-art of such advanced technology is initially proposed and the experimental characterization of some prototypes is described. From this analysis, it can be stated that the bifacial silicon solar cells can be a very promising technology with high electrical performances and efficiency.

Silicon solar cells Solar cellsSilicon heterojunctionSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciSettore ING-INF/01 - Elettronica
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PV systems in the vertical walls: A comparison of innovative structures

2016

This paper presents the performance comparison of PV windows with the purpose of tracing the behavior of next-generation systems, which could favor architectonical integration. More in detail, a dye sensitized solar cell (DSSC) and blue and grey thin film silicon panels have been analyzed. The systems can be placed behind a window or behind a wall of glass blocks. The three generation systems are then compared in terms of both efficiency and Fill Factor.

EngineeringSilicon020209 energychemistry.chemical_element02 engineering and technologySettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciTracingSettore ING-INF/01 - Elettronica0202 electrical engineering electronic engineering information engineeringDSSCThin filmGreen Energybusiness.industryPhotovoltaic systemElectrical engineeringWindow (computing)Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSettore ING-IND/31 - ElettrotecnicaDye-sensitized solar cellchemistryPerformance comparisonOptoelectronicsFill factorbusinessIntegrated PhotovoltaicSettore ING-INF/07 - Misure Elettriche E ElettronicheSilicon Solar Cells2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA)
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Broadband light trapping in thin film solar cells with self-organized plasmonic nano-colloids

2015

The intense light scattered from metal nanoparticles sustaining surface plasmons makes them attractive for light trapping in photovoltaic applications. However, a strong resonant response from nanoparticle ensembles can only be obtained if the particles have monodisperse physical properties. Presently, the chemical synthesis of colloidal nanoparticles is the method that produces the highest monodispersion in geometry and material quality, with the added benefits of being low-temperature, low-cost, easily scalable and of allowing control of the surface coverage of the deposited particles. In this paper, novel plasmonic back-reflector structures were developed using spherical gold colloids wi…

Materials sciencePhotovoltaics light trapping plasmonics Mie scatterers thin film silicon solar cells.NanoparticlePhysics::OpticsBioengineeringMie scatterersMie scattererSettore ING-INF/01 - Elettronica7. Clean energyLight scatteringplasmonicsthin film silicon solar cellsMechanics of MaterialGeneral Materials SciencePlasmonic solar cellElectrical and Electronic EngineeringThin filmPlasmonbusiness.industryScatteringMechanical EngineeringChemistry (all)Surface plasmonNanocrystalline siliconGeneral ChemistryPlasmonicThin film silicon solar cellphotovoltaicsMechanics of MaterialsOptoelectronicslight trappingMaterials Science (all)businessPhotovoltaic
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Light trapping by plasmonic nanoparticles

2020

Abstract Metallic nanoparticles sustaining localized surface plasmon resonances are of great interest for enhancing light trapping in thin film photovoltaics. In this chapter, we explore the correlation between the structural and optical properties of self-assembled silver nanostructures fabricated by a solid-state dewetting process on various substrates relevant for silicon photovoltaics and later integrated into plasmonic back reflectors. Our study allows us to optimize the performance of nanostructures by identifying the fabrication conditions in which desirable circular and uniformly spaced nanoparticles are obtained. Second, we introduce a novel optoelectronic spectroscopic method that…

Plasmonic nanoparticlesMaterials scienceSiliconbusiness.industryPhysics::Opticschemistry.chemical_elementSettore ING-INF/01 - ElettronicachemistryPhotovoltaicsLight trapping Localized surface plasmon resonance Photocurrent enhancement Plasmon-enhanced Self-assembly Silver nanoparticles Thin film silicon solar cellsOptoelectronicsQuantum efficiencyDewettingThin filmbusinessPlasmonLocalized surface plasmon
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