Search results for "Hot electron"

showing 9 items of 9 documents

Génération et détection d'électrons chauds dans des dispositifs plasmoniques

2021

Hot carrier-based devices are quite promissing for ultrafast photodetection and toset off enhanced physicochemical reactions. Controlling their generation at the nanoscale within plasmonic devices is a key for the future development of hybrid hot carriers technologies. Indeed, Surface PlasmonPolaritons (SPPs) can be exploited to confine light and enhance the number of excited hot carriers. We aim at studying the excitation and dynamics of hot carriers, enhanced by plasmonics, with two different approaches.In a first approach, we aim at controlling the delocalized generation of hot carriers by a propagative SPP. A plasmonic waveguide with a grating coupler is employed. Hot electrons are indi…

Luminescence multiphotoniqueUltrafast detectionPlasmoniquePorteurs chauds[PHYS.COND.CM-GEN] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]Multi-Photon luminescencePhotodetectorsÉlectrons chaudsDétection ultra-RapidePlasmonicPhotodétecteursHot electronsHot carriers
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Interfacial States Cause Equal Decay of Plasmons and Hot Electrons at Gold-Metal Oxide Interfaces.

2020

We compare the decay of plasmons and "conventional" hot electrons within the same series of gold/metal oxide interfaces. We found an accelerated decay of hot electrons at gold-metal oxide interfaces with decreasing band gap of the oxide material. The decay is accelerated by the increased phase space for electron scattering caused by additional interfacial states. Since plasmons decay faster within the same series of gold-metal oxide interfaces, we propose plasmons are able to decay into the same interfacial states as hot electrons. The similarity of plasmon damping to conventional hot electron decay implies that many classical surface analysis techniques and theoretical concepts are transfe…

Materials scienceCondensed matter physicsMechanical EngineeringOxidePhysics::OpticsBioengineering02 engineering and technologyGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsMetalCondensed Matter::Materials Sciencechemistry.chemical_compoundchemistryvisual_artvisual_art.visual_art_mediumHigh Energy Physics::ExperimentGeneral Materials ScienceAstrophysics::Earth and Planetary AstrophysicsPhysics::Chemical Physics0210 nano-technologyHot electronPlasmonNano letters
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Hot-Carrier Generation in Plasmonic Nanoparticles: The Importance of Atomic Structure

2020

Metal nanoparticles are attractive for plasmon-enhanced generation of hot carriers, which may be harnessed in photochemical reactions. In this work, we analyze the coherent femtosecond dynamics of photon absorption, plasmon formation, and subsequent hot-carrier generation through plasmon dephasing using first-principles simulations. We predict the energetic and spatial hot-carrier distributions in small metal nanoparticles and show that the distribution of hot electrons is very sensitive to the local structure. Our results show that surface sites exhibit enhanced hot-electron generation in comparison to the bulk of the nanoparticle. While the details of the distribution depend on particle s…

Materials scienceDephasingAtom and Molecular Physics and OpticsFOS: Physical sciencesGeneral Physics and AstronomyNanoparticlePhysics::Optics02 engineering and technology010402 general chemistry01 natural sciencesAtomic unitsArticleplasmon dephasingPhysics - Chemical PhysicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)General Materials ScienceAbsorption (electromagnetic radiation)Plasmonatomic-scaleatomic scaleChemical Physics (physics.chem-ph)Plasmonic nanoparticlesCondensed Matter - Materials ScienceCondensed Matter - Mesoscale and Nanoscale Physicslocalized surface plasmonGeneral EngineeringMaterials Science (cond-mat.mtrl-sci)plasmon decay021001 nanoscience & nanotechnologyCondensed Matter Physicstime-dependent density-functional theory0104 chemical sciencespintaplasmonitplasmonittime-dependent density functional theoryChemical physicsFemtosecondnanohiukkasetAstrophysics::Earth and Planetary Astrophysicshot carriers0210 nano-technologyhot electronsLocalized surface plasmon
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Electrostatic Control over Optically Pumped Hot Electrons in Optical Gap Antennas

2020

International audience; We investigate the influence of a static electric field on the incoherent nonlinear response of an unloaded electrically contacted nanoscale optical gap antenna. Upon excitation by a tightly focused near-infrared femtosecond laser beam, a transient elevated temperature of the electronic distribution results in a broadband emission of nonlinear photoluminescence (N-PL). We demonstrate a modulation of the yield at which driving photons are frequency up-converted by means of an external control of the electronic surface charge density. We show that the electron temperature and consequently the N-PL intensity can be enhanced or reduced depending on the command polarity a…

Materials scienceMetrics & More Article Recommendations nonlinear photoluminescencesurface charge density02 engineering and technology01 natural sciencesnonlinear plasmonicsElectric field0103 physical sciencesoptical gap antennas[NLIN]Nonlinear Sciences [physics]Electrical and Electronic Engineering[PHYS.COND]Physics [physics]/Condensed Matter [cond-mat]010306 general physicsNanoscopic scalebusiness.industryCharge density021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsNonlinear systemOptoelectronicsAntenna (radio)0210 nano-technologybusinessHot electronExcitationhot electronsBiotechnology
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Plasmon-Induced Direct Hot-Carrier Transfer at Metal-Acceptor Interfaces.

2019

Plasmon-induced hot-carrier transfer from a metal nanostructure to an acceptor is known to occur via two key mechanisms: (i) indirect transfer, where the hot carriers are produced in the metal nanostructure and subsequently transferred to the acceptor, and (ii) direct transfer, where the plasmons decay by directly exciting carriers from the metal to the acceptor. Unfortunately, an atomic-level understanding of the direct-transfer process, especially with regard to its quantification, remains elusive even though it is estimated to be more efficient compared to the indirect-transfer process. This is due to experimental challenges in separating direct from indirect transfer as both processes o…

NanostructureMaterials scienceprobabilityta221General Physics and Astronomyhot holes02 engineering and technology010402 general chemistry01 natural scienceslaw.inventionMetalnanorakenteetpuolijohteetlawTransfer (computing)General Materials SciencePlasmonta114nanoelektroniikkatiheysfunktionaaliteoriaGeneral Engineeringplasmon decayTime-dependent density functional theory021001 nanoscience & nanotechnologyLaserAcceptortime-dependent density-functional theory0104 chemical sciencesdirect transferChemical physicsvisual_artFemtosecondvisual_art.visual_art_mediumtodennäköisyys0210 nano-technologyhot electronsACS nano
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Frequency influence on the hot-electron noise reduction in GaAs operating under periodic signals

2008

A Monte Carlo study of the role of the frequency on the hot-electron intrinsic noise reduction in an n-type GaAs bulk driven by two mixed cyclostationary electric fields is presented. Previous numerical results showed the possibility to reduce the diffusion noise under specific wave-mixing conditions. In this work the variations of the noise properties are investigated by computing and integrating the spectral density of the velocity fluctuations. We found that the effect of reduction of the noise level due to the addition of a second field at twice frequency is almost independent of the frequency.

PhysicsNoise temperatureCondensed matter physicsCyclostationary processNoise reductionNoise spectral densityMonte Carlo methodSemiconducting gallium arsenideGeneral Physics and AstronomySpectral densityVelocity fluctuationSettore FIS/03 - Fisica Della MateriaMonte Carlo methodPeriodic signalSpectral densityNoise generatorElectric fieldNoise abatementNoise (radio)Hot electrons
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Influence of the Substituent on Selective Photocatalytic Oxidation of Aromatic Compounds in Aqueous TiO2 Suspensions.

2006

Experimental results are reported showing that the photocatalytic oxidation of aromatic compounds containing an electron-donor group (EDG) gives rise mainly to ortho- and para-monohydroxy derivatives while in the presence of an electron-withdrawing group (EWG) all the monohydroxy derivatives are obtained.

Settore CHIM/03 - Chimica Generale e InorganicaAqueous solutionMetals and AlloysSubstituenthot electronGeneral ChemistryGeneral MedicineMedicinal chemistryCatalysisSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialschemistry.chemical_compoundSubstituent effectchemistryPhotocatalysis; TiO2; Substituent effect; OxydationGroup (periodic table)PhotocatalystsMaterials ChemistryCeramics and CompositesPhotocatalysisTiO2Organic chemistryOxydationPhotocatalysisChemInform
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Hot-electron noise suppression in n-Si via the Hall effect

2008

We investigate how hot-electron fluctuations in n-type Si are affected by the presence of an intense (static) magnetic field in a Hall geometry. By using the Monte Carlo method, we find that the known Hall-effect-induced redistribution of electrons among valleys can suppress electron fluctuations with a simultaneous enhancement of the drift velocity. We investigate how hot-electron fluctuations in n-type Si are affected by the presence of an intense (static) magnetic field in a Hall geometry. By using the Monte Carlo method, we find that the known Hall-effect-induced redistribution of electrons among valleys can suppress electron fluctuations with a simultaneous enhancement of the drift vel…

Statistics and ProbabilityCondensed Matter - Materials ScienceQuantum PhysicsDrift velocityNoise suppressionMaterials scienceCondensed matter physicsMonte Carlo methodMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesStatistical and Nonlinear PhysicsElectronCondensed Matter::Mesoscopic Systems and Quantum Hall EffectMagnetic fieldhot electrons Si noise Hall effectHall effectRedistribution (chemistry)Statistics Probability and UncertaintyQuantum Physics (quant-ph)Hot electron
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Efficient Hot Electron Transfer in Quantum Dot-Sensitized Mesoporous Oxides at Room Temperature

2018

Hot carrier cooling processes represent one of the major efficiency losses in solar energy conversion. Losses associated with cooling can in principle be circumvented if hot carrier extraction toward selective contacts is faster than hot carrier cooling in the absorber (in so-called hot carrier solar cells). Previous work has demonstrated the possibility of hot electron extraction in quantum dot (QD)-sensitized systems, in particular, at low temperatures. Here we demonstrate a room-temperature hot electron transfer (HET) with up to unity quantum efficiency in strongly coupled PbS quantum dot-sensitized mesoporous SnO2. We show that the HET efficiency is determined by a kinetic competition b…

Work (thermodynamics)Materials scienceBioengineeringHot electron transfer02 engineering and technologyPhoton energy010402 general chemistryKinetic energyterahertz spectroscopy01 natural sciencesquantum dot-sensitized solar cellsstrong couplingGeneral Materials ScienceSDG 7 - Affordable and Clean Energy/dk/atira/pure/sustainabledevelopmentgoals/affordable_and_clean_energybusiness.industryMechanical EngineeringPbS quantum dotsGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesTerahertz spectroscopy and technologyQuantum dotOptoelectronicsQuantum efficiencyAstrophysics::Earth and Planetary Astrophysics0210 nano-technologybusinessMesoporous materialExcitationNano Letters
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