Search results for "surface plasmon resonance"

showing 10 items of 208 documents

Plasmon-induced slow aging of exciton generation and dissociation for stable organic solar cells

2016

Fast degradation is a major issue with organic photovoltaics (OPVs). Integrating plasmonics with OPVs has improved their efficiency; however, the stability effects are unknown. We demonstrate that plasmonic effects can improve the lifetime and efficiency. The aging effects on charge carrier generation and transport are investigated. Confocal time-resolved photoluminescence of Au nanoparticle (NP) doped polymer blend was performed to understand the plasmonic effects on excited-state dynamics. Hot exciton generation is observed directly at the Au-NP surface, which contributed to achieving a nearly perfect exciton dissociation yield. We found that slow aging of the plasmonic effect and the hot…

PhotoluminescenceMaterials scienceOrganic solar cellbusiness.industryExcitonPhysics::Optics02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesSurface plasmon polaritonAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic MaterialsSolar cell efficiencyPhysics::Atomic and Molecular ClustersOptoelectronicsCharge carrierSurface plasmon resonance0210 nano-technologybusinessPlasmonOptica
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Nanoassembled plasmonic-photonic hybrid cavity for tailored light-matter coupling.

2010

We propose and demonstrate a hybrid cavity system in which metal nanoparticles are evanescently coupled to a dielectric photonic crystal cavity using a nanoassembly method. While the metal constituents lead to strongly localized fields, optical feedback is provided by the surrounding photonic crystal structure. The combined effect of plasmonic field enhancement and high quality factor (Q approximately 900) opens new routes for the control of light-matter interaction at the nanoscale.

PhotonsNanostructureMaterials sciencebusiness.industryMechanical EngineeringTransducersPhysics::OpticsNanoparticleBioengineeringNanotechnologyGeneral ChemistryDielectricEquipment DesignSurface Plasmon ResonanceCondensed Matter PhysicsEquipment Failure AnalysisCoupling (physics)RefractometryNanotechnologyGeneral Materials SciencePhotonicsbusinessNanoscopic scalePlasmonPhotonic crystalNano letters
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Plasmonic nanostructures for light trapping in thin-film solar cells

2019

M.J.M. acknowledges funding from FCT through the grant SFRH/BPD/115566/2016. ALTALUZ (Reference PTDC/CTM-ENE/5125/2014). The optical properties of localized surface plasmon resonances (LSPR) sustained by self-assembled silver nanoparticles are of great interest for enhancing light trapping in thin film photovoltaics. First, we report on a systematic investigation of the structural and the optical properties of silver nanostructures fabricated by a solid-state dewetting process on various substrates. Our study allows to identify fabrication conditions in which circular, uniformly spaced nanoparticles are obtainable. The optimized NPs are then integrated into plasmonic back reflector (PBR) st…

PhotovoltaicsMaterials Science(all)Mechanics of MaterialsMechanical EngineeringNanoparticlesPlasmonic-enhanced light trappingSubwavelength nanostructuresSelf-assemblySDG 7 - Affordable and Clean EnergyLocalized surface plasmon resonanceThin film solar cellsCondensed Matter Physics
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Surface Plasmon Platform for Angle-Resolved Chiral Sensing

2019

Chiral sensitive techniques have been used to probe the fundamental symmetries of the universe, study biomolecular structures, and even develop safe drugs. As chiral signals are inherently weak and...

PhysicsCircular dichroismHigh Energy Physics::LatticeHigh Energy Physics::PhenomenologySurface plasmon02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesMolecular physicsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials010309 optics0103 physical sciencesElectrical and Electronic EngineeringThin filmSurface plasmon resonanceOptical rotation0210 nano-technologyChirality (chemistry)BiotechnologyACS Photonics
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Influence of an Electron Beam Exposure on the Surface Plasmon Resonance of Gold Nanoparticles

2013

Electron beam imaging is a common technique used for characterizing the morphology of plasmonic nanostructures. During the imaging process, the electron beam interacts with traces of organic material in the chamber and produces a well-know layer of amorphous carbon over the specimen under investigation. In this paper, we investigate the effect of this carbon adsorbate on the spectral position of the surface plasmon in individual gold nanoparticles as a function of electron exposure dose. We find an optimum dose for which the plasmonic response of the nanoparticle is not affected by the imaging process. The final publication is available at link.springer.com

PhysicsCondensed Matter - Mesoscale and Nanoscale Physicsbusiness.industrySurface plasmonBiophysicsFOS: Physical sciencesNanoparticle02 engineering and technologyElectron010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesBiochemistry0104 chemical sciencesAmorphous carbonColloidal goldMesoscale and Nanoscale Physics (cond-mat.mes-hall)Cathode rayOptoelectronicsSurface plasmon resonance0210 nano-technologybusinessPlasmonBiotechnologyPlasmonics
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Optical response and shapes of charged sodium clusters; an analogue of the nuclear giant dipole response

1995

Collective vibrations of de-localized electrons against the positive charged ionic background in sodium clusters (plasmon resonances) and the collective vibrations of protons against neutrons in nuclei (giant dipole resonances) have several features in common. However, fundamental differences exist due to differences in the two media; the nucleus is a quantum liquid whereas the metallic medium is more like a plasma with classical positive ions and quantized electrons. The similarities and differences are illustrated by results from optical response measurements for charged sodium clusters with 14 to 48 atoms.

PhysicsDipolePhysics::Atomic and Molecular ClustersIonic bondingNeutronPlasmaElectronAtomic physicsSurface plasmon resonancePlasmonIon
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Many-body origin of the plasmon resonance in small metal clusters

1994

The origin of the plasmon excitation in small metal clusters is studied within the jellium model through ab initio electronic-structure calculations based on the nuclear shell model. In the limit of infinite size, the plasmon classically represents pure harmonic motion of the center of mass of the valence electrons. It is shown that this limit is already well approximated by clusters of only eight electrons.

PhysicsJelliumPhysics::Atomic and Molecular ClustersNuclear shell modelAb initioCenter of massElectronSurface plasmon resonanceAtomic physicsValence electronAtomic and Molecular Physics and OpticsPlasmonZeitschrift f�r Physik D Atoms, Molecules and Clusters
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Electron-gas clusters: the ultimate jellium model

1995

The local spin-density approximation is used to calculate ground- and isomeric-state geometries of jellium clusters with 2 to 22 electrons. The positive background charge of the model is completely deformable, both in shape and in density. The model has no input parameters. The resulting shapes of the clusters exhibit breaking of axial and inversion symmetries; in general the shapes are far from ellipsoidal. Those clusters which lack inversion symmetry are extremely soft against odd-multipole deformations. Some clusters can be interpreted as molecules built from magic clusters. The deformation produces a gap at the Fermi level. This results in a regular odd-even staggering of the total ener…

PhysicsPoint reflectionJelliumFermi levelElectronEllipsoidAtomic and Molecular Physics and Opticssymbols.namesakePhysics::Atomic and Molecular ClusterssymbolsCluster (physics)Atomic physicsSurface plasmon resonanceFermi gasZeitschrift für Physik D Atoms, Molecules and Clusters
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Plasmonic Focusing Reduces Ensemble Linewidth

2012

In this chapter I present an effect the coating of gold nanorods with a silver shell is evocating: a reduction of the ensemble plasmon linewidth by changing the plasmon-shape relation, which connects the particle shape with its plasmon resonance wavelength. This change, we term “plasmonic focusing” (Sect. 10.2), leads to less variation of resonance wavelengths for the same particle size distribution. Section 10.3 explains the effect of increasing single particle linewidth during the coating process, which is therefore not the reason for the observed ensemble linewidth decrease. This is rather a result from a change in the plasmon-shape relation explained in Sect. 10.4. Using a simple model,…

PhysicsWavelengthLaser linewidthCondensed matter physicsParticle-size distributionPhysics::Atomic and Molecular ClustersPhysics::OpticsParticleNanorodSurface plasmon resonanceResonance (particle physics)Plasmon
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Surface Plasmons for Chiral Sensing

2021

Chiral sensitive techniques have been used to probe the fundamental symmetries of the universe, study biomolecular structures, and even develop safe drugs. The traditional method for the measurement of chirality is through optical activity, however, chiroptical signals are inherently weak and often suppressed by large backgrounds. Different techniques have been proposed to overcome the limitations of traditionally used optical polarimetry, such as cavity- and/or nanophotonic-based schemes. In this chapter we demonstrate how surface plasmon resonance can be employed as a new research tool for chiral sensing, which we term here as CHIral Surface Plasmon Resonance (CHISPR). We present how surf…

Physicsbusiness.industryHigh Energy Physics::LatticeSurface plasmonNanophotonicsPolarimetryPhysics::OpticsRange (mathematics)OptoelectronicsSurface plasmon resonancebusinessChirality (chemistry)Refractive indexVisible spectrum
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