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showing 10 items of 3539 documents

Characterization of Thin Passive Film-Electrolyte Junctions. The Amorphous Semiconductor (a-SC) Schottky Barrier Approach.

2017

A detailed study of the electronic properties of thin (< 20 nm) anodic TiO2 potentiostatically grown on titanium in two different solutions is presented. The results show that the nature of the anodizing solution affects the electronic properties of the anodic film and in particular the density of electronic state (DOS) distribution. Different DOS were derived from the experimental data analyzed according to the theory of amorphous semiconductor (a-SC) Schottky barrier. It is shown that the usual non-linear and frequency dependent Mott-Schottky plots are in agreement with expected theoretical behaviour of a-SC Schottky barrier. It is shown the importance of the DOS distribution in determini…

Amorphous semiconductorsEngineeringSettore ING-IND/23 - Chimica Fisica Applicatabusiness.industrySchottky barrieranodic TiO2 Thin Passive Film Amorphous Semiconductor Electrochemical Impedance Spectroscopy electronic properties theory of amorphous semiconductor (a-SC) Schottky barrierElectrical engineeringOptoelectronicsElectrolytebusinessCharacterization (materials science)
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&lt;title&gt;Holographic properties of dielectric crystals and amorphous semiconductor films&lt;/title&gt;

2001

Holographic recording properties and mechanisms are analyzed and compared in dielectric electrooptic crystals (EOC), dielectric colored alkali halide crystals (AHC) and amorphous semiconductor films (ASF) basing on author's investigations as well as on the literature data. Holographic photosensitivity parameters are introduced enabling the characterization of the recording mechanism efficiency independently of the particular optical and geometrical sample parameters, and allowing also for recording optimization. Ultimate specific recording energies for EOC, AHC and ASF are theoretically estimated. It is concluded that the ultimate recording energy for both crystalline and amorphous material…

Amorphous semiconductorsMaterials sciencebusiness.industryOptical engineeringHolographyDielectricCharacterization (materials science)Amorphous solidlaw.inventionOpticslawbusinessMaterial propertiesHolographic recordingOptics of Crystals
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Correlated barrier hopping in NiO films

1991

The ac conduction in NiO films has been investigated in the frequency range 10 Hz < v < 10^9 Hz and at temperatures between 10 and 300 K. The frequency and the temperature dependence of the electrical conductivity can be consistently explained within a model developed for the mechanism of charge transfer in amorphous semiconductors which proposes that charge carriers hop over potential barriers between defect sites, the height of the barriers being correlated with the intersite separation.

Amorphous semiconductorsNickelMaterials scienceCondensed matter physicschemistryOver potentialElectrical resistivity and conductivitySemiconductor materialsNon-blocking I/Ochemistry.chemical_elementCharge carrierThermal conductionPhysical Review B
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A qualitative examination of performance and energy yield of photovoltaic modules in southern Norway

2010

Three different, commercially available photovoltaic modules have been monitored outdoors in the town of Grimstad, Norway. The present paper describes the experimental setup that was implemented, in particular details of the low-cost electronic loads. Results compare measured performance with manufacturer's data, and temperature measurements enable a comparison with performance at standard test condition temperature. Overall, the monocrystalline module performed best both regarding maximum efficiency and overall energy production, whereas the module based on triple junction amorphous silicon technology had the worst performance considering these criteria. The gross numbers of energy yield c…

Amorphous siliconEngineeringRenewable Energy Sustainability and the Environmentbusiness.industryPhotovoltaic systemElectrical engineeringSolar energyTemperature measurementAutomotive engineeringMonocrystalline siliconMaximum efficiencychemistry.chemical_compoundchemistryPerformance ratiobusinessEnergy (signal processing)Renewable Energy
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A procedure to calculate the I–V characteristics of thin-film photovoltaic modules using an explicit rational form

2015

Abstract Accurate models of the electrical behaviour of photovoltaic modules are effective tools for system design. One or two diode equivalent circuits have been widely used even though some mathematical difficulties were found dealing with implicit equations. In this paper, a new model based on a simple rational function, which does not contain any implicit exponential form, is presented. The model was conceived in order to be used with thin-film photovoltaic modules, whose current–voltage curves are characterised by very smooth shapes. The parameters of the model are evaluated by means of the derivatives of the issued characteristics in the short circuit and open circuit points at standa…

Amorphous siliconEngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleMaximum power principlebusiness.industryMechanical EngineeringPhotovoltaic systemThin-film photovoltaic modules five-parameter modelfI–V characteristics solar energyBuilding and ConstructionRational functionManagement Monitoring Policy and LawTopologySolar irradiancechemistry.chemical_compoundGeneral EnergychemistryElectronic engineeringEquivalent circuitSystems designbusinessShort circuit
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A procedure to evaluate the seven parameters of the two-diode model for photovoltaic modules

2019

Abstract The paper presents an analytical procedure to calculate the seven parameters of the two-diode model of photovoltaic (PV) panels for any value of the solar irradiance and cell temperature. Six parameters (the photocurrent, the diode reverse saturation currents, the quality factor of the first diode and the series and shunt resistances), are evaluated by solving the equations related to the properties of the main points of the current-voltage (I-V) characteristics. The further information, necessary to calculate the entire set of seven truly independent parameters, is based on two conditions that have to be simultaneously satisfied: 1) the exclusion of negative values of the model pa…

Amorphous siliconI-V characteristic020209 energySeven-parameter equivalent modelTwo-diode model02 engineering and technologyTopologySolar irradianceMonocrystalline siliconchemistry.chemical_compoundSolar energy0202 electrical engineering electronic engineering information engineering0601 history and archaeologyDiodeMathematicsPhotocurrent060102 archaeologyRenewable Energy Sustainability and the Environmentbusiness.industryPhotovoltaic systemPV panel06 humanities and the artsSolar energyCopper indium gallium selenide solar cellschemistrybusinessRenewable Energy
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Plasmonic and diffractive nanostructures for light trapping—an experimental comparison

2015

Metal nanoparticles and diffractive nanostructures are widely studied for enhancing light trapping efficiency in thin-film solar cells. Both have achieved high performance enhancements, but there are very few direct comparisons between the two. Also, it is difficult to accurately determine the parasitic absorption of metal nanoparticles. Here, we assess the light trapping efficiencies of both approaches in an identical absorber configuration. We use a 240 nm thick amorphous silicon slab as the absorber layer and either a quasi-random supercell diffractive nanostructure or a layer of self-assembled metal nanoparticles for light trapping. Both the plasmonic and diffractive structures strongly…

Amorphous siliconMaterials scienceNanostructureNanostructureSubwavelength structuresbusiness.industryPhysics::OpticsDiffraction gratingPlasmonicSubwavelength structureSettore ING-INF/01 - ElettronicaAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialschemistry.chemical_compoundOpticsSolar cell efficiencychemistryOptoelectronicsPlasmonic solar cellThin filmbusinessAbsorption (electromagnetic radiation)Diffraction gratingPhotovoltaicPlasmon
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Photonic-crystal silicon-nanocluster light-emitting device

2006

We report on enhanced light extraction from a light-emitting device based on amorphous silicon nanoclusters, suitable for very-large-scale integration, and operating at room temperature. Standard low-cost optical lithography is employed to fabricate a two-dimensional photonic crystal onto the device. We measured a vertical emission with the extracted radiation enhanced by over a factor of 4, without the aid of any buried reflector. These achievements demonstrate that a cost-effective exploitation of photonic crystals is indeed within the reach of semiconductor industry and open the way to a new generation of nanostructured silicon devices in which photonic and electronic functions are integ…

Amorphous siliconMaterials sciencePhysics and Astronomy (miscellaneous)Siliconbusiness.industryHybrid silicon laserPhotonic integrated circuitchemistry.chemical_elementNanotechnologySettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della MateriaNanoclusterslaw.inventionchemistry.chemical_compoundNANOCRYSTALSchemistrylawELECTROLUMINESCENCEOptoelectronicslight-emitting devicePhotolithographyPhotonicsbusinessPhotonic crystal
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Plasmonic effects of ultra-thin Mo films on hydrogenated amorphous Si photovoltaic cells

2012

We report on the improvement of short circuit current (JSC), fill factor (FF), and open circuit resistance (ROC) in hydrogenated amorphous silicon (a-Si:H) photovoltaic cells with a p-type/intrinsic/n-type structure, achieved by the addition of an ultra-thin molybdenum film between the p-type film and the transparent conductive oxide/glass substrate. For suitable conditions, improvements of ≈10% in average internal quantum efficiency and up to 5%–10% under standard illumination in JSC, FF, and ROC are observed. These are attributed to the excitation of surface plasmon polariton modes of the a-Si:H/Mo interface.

Amorphous siliconMaterials sciencePhysics and Astronomy (miscellaneous)Siliconbusiness.industrySurface plasmonchemistry.chemical_elementhydrogenated amorphous silicon (a-Si:H) solar cellsSubstrate (electronics)Amorphous solidchemistry.chemical_compoundchemistrysurface plasmon polaritonOptoelectronicsbusinessShort circuitPlasmonTransparent conducting film
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Comparison between textured SnO2:F and Mo contacts with the p-type layer in p–i–n hydrogenate amorphous silicon solar cells by forward bias impedance…

2013

Abstract In this paper we compare the performance of the textured SnO2:F and Mo contacts with the p-type layer in p–i–n hydrogenate amorphous silicon (a-Si:H) solar cells. We use standard current–voltage (I–V) electrical characterization methods coupled with forward bias small signal impedance analysis. We show the efficacy of this technique to determine the effective carrier lifetime in photovoltaic cells. We show that such effective lifetimes are indeed directly connected to the respective dark diode saturation currents. We also find that the effective lifetime is constant with the temperature in the 0–70 °C range and it is significantly better for the solar cell with Mo diode contact. Th…

Amorphous siliconMaterials scienceRenewable Energy Sustainability and the EnvironmentOpen-circuit voltagebusiness.industryPhotovoltaic systemImpedance measurementCarrier lifetimelaw.inventionEffective carrier lifetimea-Si:H p–i–n solar cellchemistry.chemical_compoundchemistrylawSolar cellOptoelectronicsGeneral Materials SciencebusinessElectrical impedanceSaturation (magnetic)DiodeSolar Energy
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