Search results for "Conversion"

showing 10 items of 707 documents

Universal charts for optical difference frequency generation in the terahertz domain

2010

We present a universal and rigorous approach to study difference frequency generation in the terahertz domain, keeping the number of degrees of freedom to a minimum, through the definition of a suitable figure of merit. The proposed method relies on suitably normalized charts, that enable to predict the optical-to-terahertz conversion efficiency of any system based on wave propagation in quadratic nonlinear materials. The predictions of our approach are found to be in good agreement with the best experimental results reported to date, enabling also to estimate the d22 nonlinear coefficient of high quality GaSe.

Wave propagationComputer scienceTerahertz radiationDegrees of freedom (statistics)FOS: Physical sciencesFrequency conversionSettore ING-INF/01 - ElettronicaOptical pulse generationDomain (software engineering)Semiconductor materialsQuadratic equationQuality (physics)Submillimeter wave transmittersFigure of meritOptical parametric amplifiersElectrical and Electronic EngineeringOptical propagation in nonlinear mediaOptical frequency conversionSettore ING-INF/02 - Campi ElettromagneticiCondensed Matter PhysicsAtomic and Molecular Physics and Opticsoptical parametric amplifiersemiconductor materialNonlinear systemAlgorithmOptics (physics.optics)Physics - OpticsIEEE Journal of Quantum Electronics
researchProduct

White LED light obtained by frequency down-conversion of perylene-based dyes

2012

White LED Perylene dyes Frequency down-conversionSettore ING-INF/01 - Elettronica
researchProduct

The potential of positively-charged cellulose sponge for malolactic fermentation of wine, using Oenococcus oeni

2001

Malolactic fermentation (MLF) is a secondary bioconversion developed in some wines involving malic acid decarboxylation. The induction of MLF in wine by cultures of free and immobilized Oenococcus oeni cells was investigated. This work reports on the effect of surface charges in the immobilization material, a recently described fibrous sponge, as well as the pH and the composition of the media where cells are suspended. A chemical treatment provided positive charge to the sponges (DE or DEAE) and gave the highest cell loadings and subsequent resistance to removal. Preculture media to grow the malolactic bacteria before the immobilization procedure were also evaluated. We have established fa…

WineChromatographybiologyBioconversionDecarboxylationfood and beveragesBioengineeringbiology.organism_classificationApplied Microbiology and BiotechnologyBiochemistrychemistry.chemical_compoundchemistryBiochemistryMalolactic fermentationMalic acidCelluloseBacteriaBiotechnologyOenococcus oeniEnzyme and Microbial Technology
researchProduct

Novel synthesis of up-conversion phosphor based on rare-earth doped NaLaF4

2011

In this work Er3+ doped NaLaF4 material has been synthesized Along with the description of the synthesis route, luminescence spectra and decay kinetics of both traditional and up-conversion luminescence of Er3+ will be presented for different Er3+ doping levels. It will be shown that the main mechanisms involved in the creation of the up-conversion luminescence in NaLaF4:Er3+ under excitation at about 975 nm are excited state absorption and energy transfer. Relative impact of either of the mechanisms in NaLaF4:Er3+ depends on both the concentration of Er3+ and on the excitation wavelength: the increase of either the concentration or the excitation wavelength leads to the prevalence of energ…

Work (thermodynamics)ChemistryDopingKineticsRare earthPhosphorUp conversionAtomic physicsPhotochemistryLuminescenceExcitationIOP Conference Series: Materials Science and Engineering
researchProduct

Theoretical efficiency limits for thermoradiative energy conversion

2015

Published version of an article in the journal: Journal of Applied Physics. Also available from the publisher at: http://dx.doi.org/10.1063/1.4907392 A new method to produce electricity from heat called thermoradiative energy conversion is analyzed. The method is based on sustaining a difference in the chemical potential for electron populations above and below an energy gap and let this difference drive a current through an electric circuit. The difference in chemical potential originates from an imbalance in the excitation and de-excitation of electrons across the energy gap. The method has similarities to thermophotovoltaics and conventional photovoltaics. While photovoltaic cells absorb…

Work (thermodynamics)Chemistrybusiness.industryBand gapEnergy conversion efficiencyVDP::Technology: 500General Physics and AstronomyNanotechnologyPhotovoltaic effectEngineering physicsThermal radiationPhotovoltaicsThermophotovoltaicEnergy transformationthermoradiation photovoltaics energy conversionbusiness
researchProduct

Up-Conversion Luminescence Processes in NaLaF4 Doped with Tm3+ and Yb3+ and Dependence on Tm3+ Concentration and Temperature

2021

In this work, luminescence processes in polycrystalline NaLaF4:Tm3+ and NaLaF4:Tm3+,Yb3+ materials were studied. Luminescence spectra and decay kinetics measurements were performed for NaLaF4 doped with various Tm3+ concentrations (0.01, 0.1, 0.5, 1, and 2 mol%) under direct excitation to 3P0, 1D2, 1G4, and 3H4 states. It was found that some of the Tm3+ excited states are more affected by Tm3+ concentration than other states. Under infrared excitation of Yb3+, energy transfer to Tm3+ occurred and intensive ultraviolet and blue up-conversion luminescence was observed. Possible up-conversion mechanisms are discussed. Spectroscopic measurements show that long-duration excitation radiation red…

Work (thermodynamics)Materials scienceDopingKineticsPhysical chemistryLuminescence spectraUp conversionCrystalliteLuminescenceInstrumentationSpectroscopyApplied Spectroscopy
researchProduct

Excitonic States in Semiconducting Two-dimensional Perovskites

2018

Hybrid organic/inorganic perovskites have emerged as efficient semiconductor materials for applications in photovoltaic solar cells with conversion efficiency above 20 \%. Recent experiments have synthesized ultra-thin two-dimensional (2D) organic perovskites with optical properties similar to those of 2D materials like monolayer MoS$_2$: large exciton binding energy and excitonic effects at room temperature. In addition, 2D perovskites are synthesized with a simple fabrication process with potential low-cost and large-scale manufacture. Up to now, state-of-the-art simulations of the excitonic states have been limited to the study of bulk organic perovskites. A large number of atoms in the …

Work (thermodynamics)Materials scienceFabricationBinding energyAb initioEnergy Engineering and Power TechnologyFOS: Physical sciences02 engineering and technologyCrystal structure010402 general chemistry01 natural sciencesOrganic moleculesCondensed Matter::Materials ScienceMonolayerMaterials ChemistryElectrochemistryChemical Engineering (miscellaneous)Electrical and Electronic EngineeringPerovskite (structure)Condensed Matter - Materials SciencePhotovoltaic systemEnergy conversion efficiencyMaterials Science (cond-mat.mtrl-sci)021001 nanoscience & nanotechnology0104 chemical sciencesChemical physicsAbsorption (chemistry)0210 nano-technology
researchProduct

Polystyrene nanoparticle-templated hollow titania nanosphere monolayers as ordered scaffolds

2018

We report a novel multi-step method for the preparation of ordered mesoporous titania scaffolds and show an illustrative example of their application to solar cells. The method is based on (monolayer) colloidal nanosphere lithography that makes use of polystyrene nanoparticles organised at a water–air interface and subsequently transferred onto a solid substrate. A titania precursor solution (titanium(IV) isopropoxide in ethanol) is then drop-cast onto the monolayer and left to “incubate” overnight. Surprisingly, instead of the expected inverse monolayer-structure, a subsequent calcination step of the precursor yields an ordered monolayer of hollow titania nanospheres with a wall thickness …

X ray diffractionX ray photoelectron spectroscopySolar cellMonolayer structureWater-air interfaceMonolayerPhase interfaceSettore ING-INF/01NanocrystalPerovskiteNanocrystalline anatasePerovskite solar cellPolystyrene nanoparticlePower conversion efficienciePrecursor solutionNanoparticleTitanium compoundInterfaces (materials)Interfaces (materials); Monolayers; Nanocrystals; Nanoparticles; Nanospheres; Perovskite; Perovskite solar cells; Phase interfaces; Polystyrenes; Scaffolds (biology); Solar cells; Titanium compounds; Titanium dioxide; X ray diffraction; Monolayer structures; Nano Sphere Lithography; Nanocrystalline anatase; Polystyrene nanoparticles; Power conversion efficiencies; Precursor solutions; Titania nanospheres; Water-air interface; X ray photoelectron spectroscopyTitanium dioxideScaffolds (biology)Nano Sphere LithographyNanospherePolystyreneTitania nanosphere
researchProduct

Digital Pulse-Processing Techniques for X-Ray and Gamma-Ray Semiconductor Detectors

2017

Over the last decade, digital pulse-processing (DPP) electronics have been widely proposed and used for new generation x- and gamma-ray spectrometers. DPP systems, based on direct digitizing and processing of detector signals, lead to better results than the traditional analog pulse-processing electronics in terms of stability, flexibility, reproducibility, energy resolution, throughput, and dead time. In this chapter, we will review the principles of operation of conventional analog electronic chains for x- and gamma-ray semiconductor detectors, with special emphasis on the benefits of the digital approach. The characteristics of a new real-time DPP system, developed by our group, are disc…

X-ray and gamma ray detectorsMaterials scienceDigital electonicSettore FIS/01 - Fisica SperimentaleElectronic engineeringSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Time to digital conversion
researchProduct

Non-Planar and Flexible Hole-Transporting Materials from Bis-Xanthene and Bis-Thioxanthene Units for Perovskite Solar Cells

2019

Two new hole-transporting materials (HTMs), BX-OMeTAD and BTX-OMeTAD, based on xanthene and thioxanthene units, respectively, and bearing p-methoxydiphenylamine peripheral groups, are presented for their use in perovskite solar cells (PSCs). The novelty of the newly designed molecules relies on the use of a single carbon-carbon bond ‘C−C’ as a linker between the two functionalized heterocycles, which increases the flexibility of the molecule compared with the more rigid structure of the widely used HTM spiro-OMeTAD. The new HTMs display a limited absorbance in the visible region, due to the lack of conjugation between the two molecular halves, and the chemical design used has a remarkably i…

XantheneOrganic ChemistryEnergy conversion efficiencyThioxantheneBiochemistryCombinatorial chemistryCatalysisInorganic ChemistryAbsorbancechemistry.chemical_compoundPlanarchemistryDrug DiscoveryMoleculePhysical and Theoretical ChemistryLinkerPerovskite (structure)
researchProduct