Search results for "Energy gap"

showing 8 items of 18 documents

Band Gap Modeling of Different Ternary and Quaternary Alumina Garnet Phases Y3(AlXGa1-X)5O12 (YAGG) and Lu3(AlXGa1-X)5O12 (LuAGG). A Semiempirical Ap…

2022

A further generalization to quaternary oxide systems of the modeling equation of optical band gap values, based on the semiempirical correlation between the differences in the electronegativity of oxygen and the average cationic electronegativity, proposed some years ago, has been carried out by expanding the approach recently employed for ternary mixed oxides. The choice of oxide polymorphs and their influence on the fitting procedure of an experimental data set is evidenced by a detailed discussion of the fitting process of the literature's experimental band gap data pertaining two quaternary oxide systems of the garnet family, namely, Y3(AlxGa1-x)5O12 (YAGG) and Lu3(AlxGa1-x)5O12 (LuAGG)…

Modeling equationGarnetSemi-empirical approachAluminaExcitonic effectAluminum oxideValue-based Energy gapElectronegativitySettore ING-IND/23 - Chimica Fisica ApplicataOptical correlation Band-gap valueDensity functional theoryQuaternary oxideSemi-empirical correlationChemical bondOxide systemGeneralisationGap model
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Theoretical study of the effect of substituent and backbone conformation on the electronic properties of symmetrically substituted poly(di‐n‐alkylsil…

1994

We present the results of ab initio 3‐21G∗ geometry optimizations and valence effective Hamiltonian (VEH) band structure calculations aimed at determining the evolution of the geometric and electronic (ionization potential, electron affinities, and band gaps) properties of all‐trans poly(dimethylsilane), poly(diethylsilane), poly(di‐n‐propylsilane), and poly(di‐n‐butylsilane) when increasing the size of the alkyl group. In the latter polymer, we have also studied the 7/3 conformation, in order to analyze the effect of the backbone conformation on the geometric and electronic structure. The VEH ionization potentials of all‐trans poly(di‐n‐alkylsilanes) are almost equal, and as experimental p…

OptimizationEnergy GapPropyl CompoundsBand gapAb initioSubstituentGeometryGeneral Physics and AstronomyElectronic structurechemistry.chemical_compoundAb initio quantum chemistry methodsComputational chemistryMethyl CompoundsConformational ChangesPhysical and Theoretical ChemistryBand Structure:FÍSICA::Química física [UNESCO]Electronic band structureAlkyl Compounds ; Silanes ; Organic Polymers ; Conformational Changes ; Ab Initio Calculations ; Geometry ; Optimization ; Band Structure ; Affinity ; Ionization Potential ; Energy Gap ; Methyl Compounds ; Ethyl Compounds ; Propyl CompoundsDimethylsilaneOrganic PolymersSilanesUNESCO::FÍSICA::Química físicaCrystallographyAlkyl CompoundsIonization PotentialAffinitychemistryEthyl CompoundsIonization energyAb Initio Calculations
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Sputtered cuprous oxide thin films and nitrogen doping by ion implantation

2016

Abstract The structural, optical and electrical properties of sputtered cuprous oxide thin films have been optimized through post-deposition thermal treatments. Moreover we have studied the effects of nitrogen doping introduced by ion implantation followed by the optimized oxidant thermal annealing. Three concentrations have been used, 0.6 N%, 1.2 N%, and 2.5 N%. Along with the preservation of the Cu 2 O phase, a slight optical band gap narrowing and a significant conductivity enhancement has been observed with respect to the undoped samples. These results can be justified by the absence of further oxygen vacancies promoted by dopant introduction and by the substitution of O atoms by N ones…

OxidantPostimplantation annealingLattice configurationMaterials scienceBand gapAnnealing (metallurgy)NitrogenInorganic chemistryOxidePhotovoltaic application02 engineering and technology01 natural sciencesOxygen vacancieSettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della Materiachemistry.chemical_compoundSputtering0103 physical sciencesMaterials ChemistryDopingSemiconductor dopingConductivity enhancementDoping (additives)Thin filmIonDepositionOxide film010302 applied physicsDopantDopingMetals and AlloysSputteringSurfaces and Interfaces021001 nanoscience & nanotechnologyOut of equilibriumSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsEnergy gapOptical and electrical propertieIon implantationchemistryIon implantationThermal-annealing0210 nano-technologyCopperCuprous oxide
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Modulation of the electronic properties of GaN films by surface acoustic waves

2003

We report on the interaction between photogenerated electron-hole pairs and surface acoustic waves (SAW) in GaN films grown on sapphire substrates. The spatial separation of photogenerated carriers by the piezoelectric field of the SAW is evidenced by the quenching of the photoluminescence (PL) intensity. The quenching levels in GaN are significantly smaller than those measured in GaAs under similar conditions. The latter is attributed to the lower exciton ionization efficiency and carrier separation probabilities mediated by the piezoelectric effect. The PL spectra also evidence energy shifts and broadenings of the electronic transitions, which are attributed to the band gap modulation by …

PhotoluminescenceMaterials scienceIII-V semiconductorsSurface acoustic wavesBand gapExcitonRadiation quenchingGeneral Physics and AstronomySemiconductor thin filmsCondensed Matter::Materials Science:FÍSICA [UNESCO]IonizationPiezoelectric semiconductorsPhotoluminescenceQuenchingbusiness.industryUNESCO::FÍSICAWide-bandgap semiconductorGallium compoundsAcoustic waveCondensed Matter::Mesoscopic Systems and Quantum Hall EffectWide band gap semiconductorsGallium compounds ; III-V semiconductors ; Wide band gap semiconductors ; Surface acoustic waves ; Semiconductor thin films ; Photoluminescence ; Radiation quenching ; Piezoelectric semiconductors ; Excitons ; Energy gapEnergy gapSapphireOptoelectronicsExcitonsbusiness
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Excitation levels and magic numbers of small parahydrogen clusters (N⩽40)

2008

The excitation energies of parahydrogen clusters have been systematically calculated by the diffusion Monte Carlo technique in steps of one molecule from 3 to 40 molecules. These clusters possess a very rich spectra, with angular momentum excitations arriving up to L=13 for the heavier ones. No regular pattern can be guessed in terms of the angular momenta and the size of the cluster. Clusters with N=13 and 36 are characterized by a peak in the chemical potential and a large energy gap of the first excited level, which indicate the magical character of these clusters. From the calculated excitation energies the partition function has been obtained, thus allowing for an estimate of thermal e…

PhysicsAngular momentumPartition function (statistical mechanics)Excited statesFOS: Physical sciencesGeneral Physics and AstronomyMonte Carlo methodsSpin isomers of hydrogenMolecular physicsSpectral lineUNESCO::FÍSICA::Química físicaEnergy gapMolecular clustersExcited stateChemical potential ; Energy gap ; Excited states ; Molecular clusters ; Monte Carlo methodsCluster (physics)Diffusion Monte CarloPhysics - Atomic and Molecular ClustersPhysical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]Atomic and Molecular Clusters (physics.atm-clus)Chemical potentialExcitationThe Journal of Chemical Physics
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Crystalline-Size Dependence of Dual Emission Peak on Hybrid Organic Lead-Iodide Perovskite Films at Low Temperatures

2018

In this work, we have investigated the crystalline-size dependence of optical absorption and photoluminescence emission of CH3NH3PbI3 films, which is necessary to identify the potential practical applications of the gadgets based on perovskite films. This study was carried out at low temperatures to minimize the extra complexity induced by thermal effects. The purpose was to clarify the origin of the dual emission peak previously reported in the literature. We found that the grain size is responsible for the appearance or disappearance of this dual emission on CH3NH3PbI3 at low temperatures, whereas we have inferred that the thickness of the perovskite layer is a much more important factor …

Work (thermodynamics)PhotoluminescenceMaterials scienceexcitonsBand gapparticle beamsExcitonIodideBinding energyAnalytical chemistry02 engineering and technology010402 general chemistry7. Clean energy01 natural sciencesiodine compoundsCondensed Matter::Materials Sciencegrain size and shapePhysical and Theoretical Chemistrytemperature dependenceAbsorption (electromagnetic radiation)perovskitesemiconductor quantum wellsPerovskite (structure)chemistry.chemical_classificationFísicabinding energy021001 nanoscience & nanotechnologycrystalline materials0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialsenergy gapGeneral Energychemistrylayered semiconductorssolar cellslight absorptionphotoluminescence0210 nano-technologyThe Journal of Physical Chemistry C
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Dicyclopentaannelated Hexa-peri-hexabenzocoronenes with a Singlet Biradical Ground State

2021

Abstract Synthesis of two dicyclopentaannelated hexa‐peri‐hexabenzocoronene (PHBC) regioisomers was carried out, using nonplanar oligoaryl precursors with fluorenyl groups: mPHBC 8 with two pentagons in the “meta”‐configuration was obtained as a stable molecule, while its structural isomer with the “para”‐configuration, pPHBC 16, could be generated and characterized only in situ due to its high chemical reactivity. Both PHBCs exhibit low energy gaps, as reflected by UV‐vis‐NIR absorption and electrochemical measurements. They also show open‐shell singlet ground states according to electron paramagnetic resonance (EPR) measurements and density functional theory (DFT) calculations. The use of…

low energy gapnot-fully benzenoid PAH010402 general chemistryPhotochemistry01 natural sciencesCatalysislaw.inventiondicyclopentaannelationopen-shell biradicallawStructural isomerMoleculeSinglet stateElectron paramagnetic resonance010405 organic chemistryChemistryCommunicationAromaticityGeneral ChemistryCommunications0104 chemical sciencesDensity functional theoryPolycyclic Aromatic Hydrocarbons | Hot Paperhexa-peri-hexabenzocoroneneGround stateAntiaromaticityAngewandte Chemie International Edition
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Silver Sulfide Nanoclusters and the Superatom Model

2015

The superatom model of electron-shell closings has been widely used to explain the stability of noble-metal nanoclusters of few nanometers, including thiolate-protected Au and Ag nanoclusters. The presence of core sulfur atoms in silver sulfide (Ag–S) nanoclusters renders them a class of clusters with distinctive properties as compared to typical noble-metal clusters. Here, it is natural to ask whether the superatom model is still applicable for the Ag–S nanoclusters with mixed metal and nonmetal core atoms. To address this question, we applied density functional simulations to analyze a series of Ag–S nanoclusters: Ag14S(SPh)12(PPh3)8, Ag14(SC6H3F2)12(PPh3)8, Ag70S16(SPh)34(PhCO2)4(triphos…

optical propertiesElectron densitySilver sulfideInorganic chemistryNanoclusterschemistry.chemical_compoundAtomic orbitalNonmetalCluster (physics)Physical and Theoretical Chemistryta116electromagnetic wave absorptionconduction bandsatomsta114ChemistrySuperatomprecious metalsmolecular orbitalsTriphosSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialsenergy gapCrystallographyGeneral Energysulfurlight absorptionThe Journal of Physical Chemistry C
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