Search results for "Quantum dot"

showing 10 items of 418 documents

MBE growth and properties of low-density InAs/GaAs quantum dot structures.

2011

We present the results of a comprehensive study carried out on morphological, structural and optical properties of InAs/GaAs quantum dot structures grown by Molecular Beam Epitaxy. InAs quantum dots were deposited at low growth rate and high growth temperature and were capped with InGaAs upper confining layers. Owing to these particular design and growth parameters, quantum dot densities are in the order of 4-5x109 cm-2 with emission wavelengths ranging from 1.20 to 1.33 µm at 10 K, features that make these structures interesting for single-photon operation at telecom wavelength. High resolution structural techniques show that In content and composition profiles in the structures depend on …

Arrhenius equationeducation.field_of_studystructural and optical characterizationPhotoluminescenceMaterials scienceCondensed matter physicslow-dimensional semiconductor systemsCondensed Matter::OtherPopulationmolecular-beam epitaxyGeneral ChemistryCondensed Matter PhysicsEpitaxyCondensed Matter::Mesoscopic Systems and Quantum Hall Effectlow-dimensional semiconductor systems molecular-beam epitaxy structural and optical characterizationsymbols.namesakeCondensed Matter::Materials ScienceQuantum dotQuantum dot lasersymbolsGeneral Materials ScienceeducationMolecular beam epitaxyWetting layer
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Flow cytometry and spectral imaging multiphoton microscopy analysis of CD36 expression with quantum dots 605 of untreated and 7-ketocholesterol-treat…

2006

To evaluate CD36 expression with quantum dots 605 (QDs 605) on untreated and 7-ketocholesterol (7KC)-treated monocytic U937 cells by flow cytometry (FCM) and confocal and multiphoton laser scanning microscopy (CLSM).Cells were analyzed by CLSM, following flow cytometric quantification of CD36 expression and 7KC uptake. Image sequences were obtained by spectral analysis in monophoton and multiphoton CLSM and analyzed by the factor analysis of medical image sequences (FAMIS) algorithm to differentiate emission spectra. In CLSM analysis, cell deposits were screened in ultraviolet excitation modes to optimize the possibilities of QDs 605 and have the benefit of nuclei counterstaining by DAPI.FC…

CD36 AntigensMESH: PhotonsMESH : Flow CytometryMESH: AlgorithmsMESH: Flow CytometryMESH: U937 CellsMESH : Quantum DotsMESH: MonocytesMonocytesMESH : Microscopy Fluorescence MultiphotonMESH : PhotonsQuantum DotsMESH : Cells Cultured[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyHumans[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyKetocholesterols[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular BiologyCells CulturedMESH : AlgorithmsMESH : KetocholesterolsPhotonsMESH: HumansMESH: Antigens CD36MESH : HumansMESH: KetocholesterolsU937 CellsMESH: Quantum DotsFlow CytometryMESH : Antigens CD36Microscopy Fluorescence MultiphotonMESH : MonocytesMESH : U937 CellsMESH: Microscopy Fluorescence MultiphotonAlgorithmsMESH: Cells Cultured
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Segmented Flow-Based Multistep Synthesis of Cadmium Selenide Quantum Dots with Narrow Particle Size Distribution

2015

A continuous-flow microreactor was used to synthetize II-VI semiconductor quantum dots (CdSe). In order to improve the size distribution of the nanoparticles, the synthesis was carried out in a two-step procedure. A seed solution was obtained in a separate nucleation step, followed by a controllable growth step. Quantum dots that are synthesized with the two-step method show a much narrower size distribution in comparison to those obtained in a conventional batch synthesis.

Cadmium selenidebusiness.industryChemistryGeneral Chemical EngineeringMicrofluidicsFlow (psychology)MicrofluidicsAnalytical chemistryNucleationNanoparticleGeneral ChemistryCdSeIndustrial and Manufacturing Engineeringchemistry.chemical_compoundQuantum dotQuantum DotsParticle-size distributioncontinuous flowOptoelectronicsdroplet flowMicroreactorbusinessChemical Engineering & Technology
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Counting statistics for electron capture in a dynamic quantum dot

2012

We report non-invasive single-charge detection of the full probability distribution $P_n$ of the initialization of a quantum dot with $n$ electrons for rapid decoupling from an electron reservoir. We analyze the data in the context of a model for sequential tunneling pinch-off, which has generic solutions corresponding to two opposing mechanisms. One limit considers sequential "freeze out" of an adiabatically evolving grand canonical distribution, the other one is an athermal limit equivalent to the solution of a generalized decay cascade model. We identify the athermal capturing mechanism in our sample, testifying to the high precision of our combined theoretical and experimental methods. …

Canonical ensemblePhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsElectron captureGeneral Physics and AstronomyInitializationFOS: Physical sciencesDecoupling (cosmology)ElectronCascadeQuantum dotQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)Probability distribution
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Lower Bounds on the Exchange-Correlation Energy in Reduced Dimensions

2009

Bounds on the exchange-correlation energy of many-electron systems are derived and tested. By using universal scaling properties of the electron-electron interaction, we obtain the exponent of the bounds in three, two, one, and quasi-one dimensions. From the properties of the electron gas in the dilute regime, the tightest estimate to date is given for the numerical prefactor of the bound, which is crucial in practical applications. Numerical tests on various low-dimensional systems are in line with the bounds obtained, and give evidence of an interesting dimensional crossover between two and one dimensions.

Chemical Physics (physics.chem-ph)Condensed Matter - Materials ScienceStrongly Correlated Electrons (cond-mat.str-el)Condensed Matter - Mesoscale and Nanoscale PhysicsCrossoverMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesGeneral Physics and AstronomyCondensed Matter - Strongly Correlated ElectronsQuantum dotPhysics - Chemical PhysicsQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)Line (geometry)POÇOS QUÂNTICOSExponentDensity functional theoryStatistical physicsFermi gasScalingEnergy (signal processing)MathematicsPhysical Review Letters
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Comparison of quantum dot-binding protein tags: Affinity determination by ultracentrifugation and FRET

2013

Abstract Background Hybrid complexes of proteins and colloidal semiconductor nanocrystals (quantum dots, QDs) are of increasing interest in various fields of biochemistry and biomedicine, for instance for biolabeling or drug transport. The usefulness of protein–QD complexes for such applications is dependent on the binding specificity and strength of the components. Often the binding properties of these components are difficult and time consuming to assess. Methods In this work we characterized the interaction between recombinant light harvesting chlorophyll a / b complex (LHCII) and CdTe/CdSe/ZnS QDs by using ultracentrifugation and fluorescence resonance energy transfer (FRET) assay exper…

ChemistryBinding proteinBiophysicsNanoparticleProtein tagBiochemistryCrystallographyB vitaminsFörster resonance energy transferQuantum dotQuantum DotsFluorescence Resonance Energy TransferNanoparticlesUltracentrifugeChlorophyll Binding ProteinsUltracentrifugationMolecular BiologyBinding selectivityProtein BindingBiochimica et Biophysica Acta (BBA) - General Subjects
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Intense laser effects on donor impurity in a cylindrical single and vertically coupled quantum dots under combined effects of hydrostatic pressure an…

2010

WOS: 000280235800010

ChemistryHydrostatic pressureBinding energyGeneral Physics and AstronomySurfaces and InterfacesGeneral ChemistryCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter PhysicsSurfaces Coatings and FilmsEffective mass (solid-state physics)Quantum wellsImpurityQuantum dotIntense laser effectsElectric fieldElectric fieldRectangular potential barrierAtomic physicsHydrostatic pressureImpurityQuantum well
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A size dependent discontinuous decay rate for the exciton emission in ZnO quantum dots

2014

The time resolved UV-fluorescence in ZnO quantum dots has been investigated using femtosecond laser spectroscopy. The measurements were performed as a function of particle size for particles between 3 and 7 nm in diameter, which are in the quantum confined regime. A red shift in the fluorescence maximum is seen while increasing the particle size, which correlates with the shift in band gap due to quantum confinement. The energy difference between the UV-fluorescence and the band gap does, however, increase for the smaller particles. For 3.7 nm particles the fluorescence energy is 100 meV smaller than the band gap energy, whereas it is only 20 meV smaller for the largest particles. This indi…

ChemistryQuantum dotBand gapExcitonPicosecondGeneral Physics and AstronomyTrappingParticle sizePhysical and Theoretical ChemistryAtomic physicsFluorescenceQuantumPhys. Chem. Chem. Phys.
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Assembly and Separation of Semiconductor Quantum Dot Dimers and Trimers

2011

Repeated precipitation of colloidal semiconductor quantum dots (QD) from a good solvent by adding a poor solvent leads to an increasing number of QD oligomers after redispersion in the good solvent. By using density gradient ultracentrifugation we have been able to separate QD monomer, dimer, and trimer fractions from higher oligomers in such solutions. In the corresponding fractions QD dimers and trimers have been enriched up to 90% and 64%, respectively. Besides directly coupled oligomers, QD dimers and trimers were also assembled by linkage with a rigid terrylene diimide dye (TDI) and separated again by ultracentrifugation. High-resolution transmission electron micrographs show that the …

ChemistrySurface PropertiesDimerAnalytical chemistryTrimerGeneral ChemistrySubstrate (electronics)PhotochemistryBiochemistryCatalysisSolventchemistry.chemical_compoundColloidColloid and Surface ChemistryMonomerSemiconductorsDiimideQuantum DotsDensity gradient ultracentrifugationParticle SizeDimerization
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Light-harvesting chlorophyll protein (LHCII) drives electron transfer in semiconductor nanocrystals

2017

Type-II quantum dots (QDs) are capable of light-driven charge separation between their core and the shell structures; however, their light absorption is limited in the longer-wavelength range. Biological light-harvesting complex II (LHCII) efficiently absorbs in the blue and red spectral domains. Therefore, hybrid complexes of these two structures may be promising candidates for photovoltaic applications. Previous measurements had shown that LHCII bound to QD can transfer its excitation energy to the latter, as indicated by the fluorescence emissions of LHCII and QD being quenched and sensitized, respectively. In the presence of methyl viologen (MV), both fluorescence emissions are quenched…

ChlorophyllParaquatPhotosynthetic reaction centreMaterials scienceAbsorption spectroscopyLight-Harvesting Protein ComplexesBiophysics02 engineering and technology010402 general chemistryPhotochemistry01 natural sciencesBiochemistryElectron TransportLight-harvesting complexElectron transferQuantum DotsUltrafast laser spectroscopyFluorescence Resonance Energy TransferAction spectrumPeasPhotosystem II Protein ComplexCell Biology021001 nanoscience & nanotechnologyFluorescence0104 chemical sciencesSemiconductorsQuantum dotNanoparticles0210 nano-technologyBiochimica et Biophysica Acta (BBA) - Bioenergetics
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