Search results for "Electronics"

showing 10 items of 4340 documents

Amplified Spontaneous Emission in Thin Films of CsPbX3 Perovskite Nanocrystals

2019

During the last years, Metal Halide Perovskites (MHPs) have attracted special attention as an efficient conversion films for photovoltaics, or excellent gain media to construct optical sources. In spite of the fact that most of the works have been focussed on CH 3 NH 3 PbX 3 (X=Cl, Br, I) polycrystalline thin films, MHP can be also synthesized as colloidal nanocrystals. In particular, caesium lead halide perovskite CsPbX 3 nanocrystals (NCs) revealed extraordinary properties for optoelectronics. With a high quantum yield of emission (>90%) at room temperature and linewidths less than 100 meV, CsPbX 3 NCs have demonstrated favourable characteristics for active photonics. Indeed, thin films o…

Amplified spontaneous emissionPhotoluminescenceMaterials sciencebusiness.industry02 engineering and technologyNanosecond010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesFemtosecondOptoelectronicsStimulated emissionThin filmPhotonics0210 nano-technologybusinessPerovskite (structure)2019 21st International Conference on Transparent Optical Networks (ICTON)
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Optical gain, spontaneous and stimulated emission of surface plasmon polaritons in confined plasmonic waveguide

2010

International audience; We develop a theoretical model to compute the local density of states in a confined plasmonic waveguide. Based on this model, we derive a simple formula with a clear physical interpretation for the lifetime modification of emitters embedded in the waveguide. The gain distribution within the active medium is then computed following the formalism developed in a recent work [Phys. Rev. B 78, 161401 (2008)], by taking rigorously into account the pump irradiance and emitters lifetime modifications in the system. We finally apply this formalism to describe gain–assisted propagation in a dielectric–loaded surface plasmon polariton waveguide.

Amplified spontaneous emissionWaveguide (electromagnetism)Optical amplifiersLightPhysics::Optics02 engineering and technologySurface plasmons01 natural sciences010309 opticsOptics0103 physical sciencesScattering RadiationComputer SimulationSpontaneous emissionStimulated emission[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsOptical amplifierPhysicsQuantum electrodynamicsbusiness.industrySurface plasmonOptical DevicesEquipment DesignModels TheoreticalSurface Plasmon ResonanceWeights and Measures021001 nanoscience & nanotechnologySurface plasmon polaritonAtomic and Molecular Physics and OpticsComputer-Aided DesignOptoelectronics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsQuantum electrodynamics.0210 nano-technologybusiness(240.6680) Surface plasmons; (230.4480) Optical amplifiers; (020.5580) Quantum electrodynamics.Localized surface plasmon
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On the enhancement of diffusion by chaos, escape rates and stochastic instability

1999

We consider stochastic perturbations of expanding maps of the interval where the noise can project the trajectory outside the interval. We estimate the escape rate as a function of the amplitude of the noise and compare it with the purely diffusive case. This is done under a technical hypothesis which corresponds to stability of the absolutely continuous invariant measure against small perturbations of the map. We also discuss in detail a case of instability and show how stability can be recovered by considering another invariant measure.

AmplitudeApplied MathematicsGeneral MathematicsCalculusTrajectoryInvariant measureInterval (mathematics)Statistical physicsAbsolute continuityNoise (electronics)Stability (probability)InstabilityMathematicsTransactions of the American Mathematical Society
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Gold Nanorods as Plasmonic Sensors for Particle Diffusion.

2016

Plasmonic gold nanoparticles are normally used as sensor to detect analytes permanently bound to their surface. If the interaction between the analyte and the nanosensor surface is negligible, it only diffuses through the sensor’s sensing volume, causing a small temporal shift of the plasmon resonance position. By using a very sensitive and fast detection scheme, we are able to detect these small fluctuations in the plasmon resonance. With the help of a theoretical model consistent with our detection geometry, we determine the analyte’s diffusion coefficient. The method is verified by observing the trends upon changing diffusor size and medium viscosity, and the diffusion coefficients obtai…

AnalyteChemistrybusiness.industryPhysics::OpticsNanoparticleNanotechnology02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesNanosensorColloidal goldOptoelectronicsGeneral Materials SciencePhysical and Theoretical ChemistrySurface plasmon resonanceDiffusion (business)0210 nano-technologybusinessPlasmonLocalized surface plasmonThe journal of physical chemistry letters
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Highly Sensitive Detection of Naphthalene in Solvent Vapor Using a Functionalized PBG Refractive Index Sensor

2012

We report an optical refractive index sensor system based on a planar Bragg grating which is functionalized by substituted γ-cyclodextrin to determine low concentrations of naphthalene in solvent vapor. The sensor system exhibits a quasi-instantaneous shift of the Bragg wavelength and is therefore capable for online detection. The overall shift of the Bragg wavelength reveals a linear relationship to the analyte concentration with a gradient of 12.5 ± 1.5 pm/ppm. Due to the spectral resolution and repeatability of the interrogation system, this corresponds to acquisition steps of 80 ppb. Taking into account the experimentally detected signal noise a minimum detection limit of 0.48 ± 0.05 pp…

AnalyteMaterials sciencegas detection; optical sensor; Bragg grating; cyclodextrin; aromatic hydrocarbonsTransducersaromatic hydrocarbonsAnalytical chemistryPhysics::OpticsNaphthaleneslcsh:Chemical technologyBiochemistryNoise (electronics)gas detectionArticleAnalytical ChemistryFiber Bragg gratinglcsh:TP1-1185Electrical and Electronic Engineeringoptical sensorInstrumentationDetection limitCyclodextrinsEquipment DesignAtomic and Molecular Physics and OpticsEquipment Failure AnalysisRefractometryWavelengthTransducercyclodextrinSolventsBragg gratingGasesRefractometryRefractive indexSensors
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Plasmonic Nanosensor Array for Multiplexed DNA-based Pathogen Detection

2019

In this research we introduce a plasmonic nanoparticle based optical biosensor for monitoring of molecular binding events. The sensor utilizes spotted gold nanoparticle arrays as sensing platform. The nanoparticle spots are functionalized with capture DNA sequences complementary to the analyte (target) DNA. Upon incubation with the target sequence, it will bind on the respectively complementary functionalized particle spot. This binding changes the local refractive index, which is detected spectroscopically as the resulting changes of the localized surface plasmon resonance (LSPR) peak wavelength. In order to increase the signal, a small gold nanoparticle label is introduced. The binding ca…

AnalyteMaterials scienceta221Molecular bindingMetal NanoparticlesNanoparticleBioengineering02 engineering and technologybiosensorit01 natural sciencesSensor arrayLimit of DetectionNanosensorplasmonic arrayNanotechnologyLSPR sensingSurface plasmon resonanceDNA FungalInstrumentationPlasmonCandidaDNA detectionFluid Flow and Transfer ProcessesPlasmonic nanoparticlesBase Sequenceta114business.industryProcess Chemistry and Technology010401 analytical chemistryta1182Fourier-transform-imaging spectroscopynanobiotekniikkaDNASurface Plasmon Resonance021001 nanoscience & nanotechnologyplasmonic nanoparticles0104 chemical sciencesAspergillusOptoelectronicsnanohiukkasetGoldDNA Probes0210 nano-technologybusinessACS Sensors
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Electrochemical pH Control at Gold Nanowires

2018

In this work, interdigitated arrays of nanowire electrodes are used with one array acting as the working electrode while the other is used to generate the required protons. Finite element simulations of the pH control electrodes were performed to provide insight on the generation and subsequent diffusion of protons. This informed the inter-tine spacing of the electrodes used.. This electrochemical pH control method was then used to enable the detection of analytes of interest.

AnalyteWorking electrodeMaterials sciencePhysics::Instrumentation and Detectorsbusiness.industry020209 energy010401 analytical chemistryPh controlNanowire02 engineering and technologypH control gold nanowire heavy metal in situ simulationElectrochemistry01 natural sciencesFinite element method0104 chemical sciencesSettore ING-IND/23 - Chimica Fisica ApplicataPhysics::Plasma PhysicsElectrode0202 electrical engineering electronic engineering information engineeringOptoelectronicsDiffusion (business)business2018 IEEE 18th International Conference on Nanotechnology (IEEE-NANO)
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New n-type molecular semiconductor–doped insulator (MSDI) heterojunctions combining a triphenodioxazine (TPDO) and the lutetium bisphthalocyanine (Lu…

2018

International audience; Molecular semiconductor–doped insulator (MSDI) heterojunctions were designed using a new family of sublayers, namely triphenodioxazines (TPDO). The device obtained by combining the tetracyano triphenodioxazine bearing two triisopropylsilylethynyl moieties as a sublayer with the lutetium bisphthalocyanine (LuPc2) as a top layer showed a nonlinear current–voltage characteristic independent of the sign of the polarization, which is the signature of MSDI heterojunctions. Thus, a TPDO was used in a chemical sensor for the first time. Despite LuPc2 being the only material exposed to the atmosphere, the positive response of the device under ammonia revealed the key role pla…

Analytical chemistrychemistry.chemical_element02 engineering and technology010402 general chemistryConductometric transducer01 natural sciencesAmmoniachemistry.chemical_compoundMolecular semiconductorAmmonia[CHIM.ANAL]Chemical Sciences/Analytical chemistryMaterials ChemistryTriphenodioxazineElectrical and Electronic EngineeringMolecular materialsInstrumentationChemistrybusiness.industryDopingMetals and AlloysHeterojunction021001 nanoscience & nanotechnologyCondensed Matter PhysicsLutetiumChemical sensor0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic Materials[SPI.TRON]Engineering Sciences [physics]/ElectronicsMolecular materialsPositive responseHeterojunctionsOptoelectronics0210 nano-technologybusiness
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Photodoping-Inspired Room-Temperature Gas Sensing by Anatase TiO2 Quantum Dots

2021

Detection of volatile organic compounds (VOCs) at room temperature in an ambient environment is highly desired, but still a distant function for gas sensor materials. Here, we are demonstrating a p...

AnataseMaterials scienceQuantum dotbusiness.industryOptoelectronicsGeneral Materials ScienceSensor materialsbusinessACS Applied Nano Materials
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Original Approach to Synthesize TiO2/ZnO Hybrid Nanosponges Used as Photoanodes for Photoelectrochemical Applications

2021

[EN] In the present work, TiO2/ZnO hybrid nanosponges have been synthesized for the first time. First, TiO2 nanosponges were obtained by anodization under hydrodynamic conditions in a glycerol/water/NH4F electrolyte. Next, in order to achieve the anatase phase of TiO2 and improve its photocatalytic behaviour, the samples were annealed at 450 degrees C for 1 h. Once the TiO2 nanosponges were synthesized, TiO2/ZnO hybrid nanosponges were obtained by electrodeposition of ZnO on TiO2 nanosponges using different temperatures, times, and concentrations of zinc nitrate (Zn(NO3)(2)). TiO2/ZnO hybrid nanosponges were used as photoanodes in photoelectrochemical water splitting tests. The results indi…

AnataseTechnologyMaterials scienceHybrid nanostructureshybrid nanostructuresNanospongeINGENIERIA QUIMICAArticlechemistry.chemical_compoundsymbols.namesakeX-ray photoelectron spectroscopyZinc nitrateZinc oxideGeneral Materials ScienceMicroscopyQC120-168.85Anodizingtitanium dioxidephotoelectrochemical water splittingTQH201-278.5zinc oxideEngineering (General). Civil engineering (General)TK1-9971chemistryChemical engineeringDescriptive and experimental mechanicsTitanium dioxidePhotocatalysissymbolsTitanium dioxideWater splittingElectrical engineering. Electronics. Nuclear engineeringTA1-2040Raman spectroscopyPhotoelectrochemical water splittingnanospongeMaterials
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