Search results for "Volt"

showing 10 items of 2187 documents

Silicon Single Electron Transistors with Single and Multi Dot Characteristics

2000

AbstractSilicon single electron transistors (SET) with side gate have been fabricated on a heavily doped silicon-on-insulator (SOI) substrate. Samples demonstrate two types of characteristics: some of them demonstrate multiple dot behavior and one demonstrates single dot behavior in a wide temperature range. SETs demonstrate oscillations of drain-source current and changes in the width of the Coulomb blockade region with change of gate voltage at least up to 100 K. At temperature below 20 K long-term oscillations (relaxation) of source-drain current after switching the gate voltage has been observed in both multiple dot and single dot samples. Illumination affects both the characteristics o…

Materials scienceSiliconbusiness.industryTransistorCoulomb blockadechemistry.chemical_elementSilicon on insulatorSubstrate (electronics)Condensed Matter::Mesoscopic Systems and Quantum Hall EffectNoise (electronics)law.inventionchemistrylawOptoelectronicsbusinessAND gateVoltageMRS Proceedings

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Single electron transistor fabricated on heavily doped silicon-on-insulator substrate

2001

Experiments on side-gated silicon single electron transistors (SET) fabricated on a heavily doped thin silicon-on-insulator substrate are reported. Some of the devices showed single-island-like and some multi-island-like behaviour, but the properties of individual samples changed with time. Single-electron gate modulation was observable up to T=100 K, at least. A slow response of SET current to a large change in gate voltage was observed, but the process speeded up under illumination.

Materials scienceSiliconbusiness.industryTransistorDopingGeneral EngineeringGeneral Physics and AstronomySilicon on insulatorCoulomb blockadechemistry.chemical_elementNanotechnologySubstrate (electronics)Hardware_PERFORMANCEANDRELIABILITYGate voltagelaw.inventionchemistryModulationlawHardware_INTEGRATEDCIRCUITSOptoelectronicsbusinessHardware_LOGICDESIGNJapanese Journal of Applied Physics

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Photonic Crystal‐Driven Spectral Concentration for Upconversion Photovoltaics

2014

The main challenge for applying upconversion (UC) to silicon photovoltaics is the limited amount of solar energy harvested directly via erbium-based upconverter materials (24.5 W m–2). This could be increased up to 87.7 W m–2 via spectral concentration. Due to the nonlinear behavior of UC, this could increase the best UC emission by a factor 13. In this paper, the combined use of quantum dots (QDs)—for luminescent down-shifting—and photonic crystals (PCs)—for reshaping the emission—to achieve spectral concentration is shown. This implies dealing with the coupling of colloidal QDs and PC at the high-density regime, where the modes are shifted and broadened. In the first fabricated all-optica…

Materials scienceSiliconbusiness.industrychemistry.chemical_elementAtomic and Molecular Physics and OpticsPhoton upconversionElectronic Optical and Magnetic MaterialsErbiumchemistryQuantum dotPhotovoltaicsOptoelectronicsbusinessLuminescenceAbsorption (electromagnetic radiation)Photonic crystalAdvanced Optical Materials

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Assessment of a New Analytical Expression for the Maximum-Power Point Voltage with Series Resistance

2021

This work compares a recently developed analytical expression for the maximum-power point voltage with experimental data, to test its usability for crystalline silicon solar cells. The experimental data covers measurements from 18 multicrystalline silicon solar cells with different bulk resistivities and cell architectures. We show that the expression is able to predict the maximum power obtainable by the measured cells with relative discrepancies below 1%. Additionally, we compare the accuracy of this new expression with two already existing models.

Materials scienceSiliconchemistryMaximum power principleEquivalent series resistancechemistry.chemical_elementExperimental dataPoint (geometry)Crystalline siliconExpression (mathematics)Computational physicsVoltage2021 IEEE 48th Photovoltaic Specialists Conference (PVSC)

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Two years performance comparison of Elkem Solar multicrystalline silicon with polysilicon in a PV grid-connected system

2014

This abstract summarizes two years performance of an Elkem Solar and polysilicon photovoltaic (PV) system installed in the Sunbelt Region, which has been fully operational since 2011. The PV system consists of 28 multicrystalline silicon PV modules made from the standard Siemens process and from material produced by a metallurgical route - the Elkem Solar Silicon (ESS®) process. The present study suggests that after two years of field operation, both types of modules show similar degradation of power at STC. The ESS® PV modules have better performance than standard polysilicon modules as a function of solar irradiation, and thereby the total kWh generated has been slightly higher for the ES…

Materials scienceSiliconchemistrybusiness.industryPerformance comparisonPhotovoltaic systemElectrical engineeringchemistry.chemical_elementbusinessGridEngineering physics2014 IEEE 40th Photovoltaic Specialist Conference (PVSC)

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Improving the material quality of silicon ingots by aluminum gettering during crystal growth

2016

We present a method for the purification of silicon ingots during the crystallization process that reduces significantly the width of the low charge carrier lifetime region at the ingot top. The back-diffusion of impurities from the ingot top is suppressed by adding a small amount of pure aluminum into the silicon melt right at the end of the solidification. We study the aluminum gettering effect by instrumental neutron activation analysis (INAA) and Fei imaging. Furthermore, we present a model for aluminum gettering of Fe in the silicon ingot that is in agreement with literature data for aluminum gettering at lower temperature. The distribution of iron in the ingots with and without alumin…

Materials scienceSiliconchemistry.chemical_elementCrucibleCrystal growth02 engineering and technology01 natural scienceslaw.inventionMaterialoptimierungSiliciumcharakterisierungSiliciumkristallisationGetterlawImpurity0103 physical sciencesGeneral Materials ScienceWaferCrystallizationIngotSolarzellen - Entwicklung und Charakterisierung010302 applied physicsMetallurgyFeedstock021001 nanoscience & nanotechnologyCondensed Matter PhysicsKristallisation und WaferingSilicium-PhotovoltaikchemistryPhotovoltaik0210 nano-technologyCharakterisierung von Prozess- und Silicium-Materialien

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Carbon nanotubes and organic solar cells

2012

The use of carbon nanotubes in photovoltaics is still challenging due to different issues connected to their synthesis, purification, functionalization, processing and device integration. From this perspective at first we review on selected contributions dealing with the above issues; then we focus on the advantages and limitations of carbon nanotubes for the development of organic solar cells.

Materials scienceSolar Cells Carbon Nanotubes Thin Films NanotechnologyNuclear Energy and EngineeringOrganic solar cellRenewable Energy Sustainability and the EnvironmentlawEnvironmental ChemistryNanotechnologyCarbon nanotubePollutionCarbon nanotubes in photovoltaicsSettore CHIM/02 - Chimica Fisicalaw.invention

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Photoelectric fields in doped lithium niobate crystals

2019

Photoinduced light scattering (PILS) in nominally pure stoichiometric and congruent lithium niobate single crystals (LiNbO3), and ones doped with B³⁺, Cu²⁺, Zn²⁺, Mg²⁺, Gd³⁺, Y³⁺, Er³⁺ cations was studied. All crystals have a relatively low effect of photorefraction and are promising materials for frequency conversion, electro-optical modulators and shutters. It was found that the photovoltaic and diffusion fields for some crystals have a maximum at a wavelength of 514.5 nm. All the crystals studied are characterized by a maximum of the integral intensity of the speckle structure of the PILS at a wavelength of 514.5 nm.

Materials scienceSolid-state physicsphotorefractive effectLithium niobate02 engineering and technology01 natural sciences7. Clean energyphotovoltaic and diffusion fieldschemistry.chemical_compound0103 physical sciencesMaterials Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]media_common.cataloged_instanceElectrical and Electronic EngineeringEuropean union010306 general physicsmedia_commonHorizon (archaeology)Rayleigh photoinduced light scatteringDopingPhotorefractive effectPhotoelectric effect021001 nanoscience & nanotechnologyCondensed Matter PhysicsEngineering physicsElectronic Optical and Magnetic MaterialschemistryControl and Systems EngineeringSingle crystal of lithium niobateCeramics and Composites0210 nano-technologyIntegrated Ferroelectrics

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Solid-state electrochemical characterization of emissions and authorities producing Roman brass coins

2020

[EN] The voltammetry of immobilized particles (VIMP) is applied to describe the solid state electrochemistry of brass. This methodology, which involves sampling at the nanogram level, is applied to discriminate mints/authorities producing different Roman monetary emissions covering since the Republic (88 BCE) to Domitianus (55-96 CE) Upon attachment to graphite electrodes in contact with aqueous acetate buffer at pH 4.75, well defined voltarnmetric responses were obtained centered on Cu- and Zn-localized signals whose intensity can be correlated to EMP data, being sensitive to the contents of Zn (15-30 wt.%) and Sn (0.01-1.1 wt.%). Voltammetric data, combined with ATR-FTIR and FIB-PESEM/EDS…

Materials scienceSolid-stateAnalytical chemistry02 engineering and technologyElectrochemistry01 natural sciencesArchaeometryAnalytical Chemistryarchaeometry; orichalcum; Roman coins; voltammetryBrassVoltammetrySpectroscopyGraphite electrodevoltammetryAqueous solutionRoman coins010401 analytical chemistryOrichalcum021001 nanoscience & nanotechnology0104 chemical sciencesCharacterization (materials science)Yield (chemistry)visual_artPINTURAvisual_art.visual_art_mediumVoltammetryarchaeometryorichalcum0210 nano-technology

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Modelling and analysis of the influence of solar spectrum on the efficiency of photovoltaic modules

2021

Abstract The article presents the influence of changes in the solar radiation spectrum distribution on the properties of various photovoltaic modules, with particular emphasis on the scattered component. We compared the relative efficiency of the photovoltaic modules based on various semiconductor absorbers during bright and sunny, and cloudy summer days. Additionally, we presented the impact of the module tilt angle on the magnitude of the surface incident scattered component and on the efficiency of the module. The solar spectra for various weather conditions were estimated using specialised computer programmes,such as SolarSpectrum or SMARTS2, and we present here the validation results f…

Materials scienceSpectral power distributionSolar spectrabusiness.industryElectromagnetic spectrumPerformance020209 energyPhotovoltaic systemEmphasis (telecommunications)Band gap design02 engineering and technologyTK1-9971General EnergyEfficiencyOpticsSemiconductor020401 chemical engineeringSolar radiation0202 electrical engineering electronic engineering information engineeringLate afternoonEnvironmental effectElectrical engineering. Electronics. Nuclear engineering0204 chemical engineeringbusinessEnergy Reports

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