Search results for "SnO2"

showing 7 items of 7 documents

Sol-gel synthesis and photocatalytic activity of ZnO-SnO2 nanocomposites

2014

Abstract ZnO–SnO 2 nanocomposites were synthesized by a facile sol–gel synthesis route and characterized through X-ray diffraction, BET specific surface area analysis, UV–vis diffuse reflectance spectroscopy, photoluminescence spectroscopy, X-ray photoelectron spectroscopy, scanning electron microscopy, transmission electron microscopy. The photocatalytic activity of the samples was tested using the degradation of 4-nitrophenol under UV light as model reaction. The ZnO/SnO 2 molar ratio was varied in order to study its influence on the photoefficiency of the samples. The ZnO–SnO 2 nanocomposites showed higher photoactivity than the pure oxides and in particular the sample with ZnO/SnO 2 mol…

Diffuse reflectance infrared fourier transformChemistryScanning electron microscopeProcess Chemistry and TechnologyAnalytical chemistryHeterojunctionCatalysisZnO-SnO2 nanocompositePhotocatalysiX-ray photoelectron spectroscopyHeterojunction effectSpecific surface areaPhotocatalysisPhotocatalysis; ZnO-SnO2 nanocomposites; Sol-gel method; Heterojunction effectSettore CHIM/07 - Fondamenti Chimici Delle TecnologiePhysical and Theoretical ChemistrySpectroscopySol-gel methodSol-gel
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Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

2021

Financial support provided by Scientific Research Project for Students and Young Researchers, Latvia Nr. SJZ/2018/7 realized at the Institute of Solid State Physics, University of Latvia is greatly acknowledged. Institute of Solid State Physics, University of Latvia as the Center of Excellence has received funding from the European Union’s Horizon 2020 Framework Programme H2020-WIDESPREAD-01-2016-2017-TeamingPhase2 under grant agreement No. 739508, project CAMART2.

X-ray detectorX-ray beam induced currentnanowire:NATURAL SCIENCES:Physics [Research Subject Categories]ZnOCdSSnO2
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Chromatographic Air Analyzer Microsystem for the Selective and Sensitive Detection of Explosive-related Compounds

2014

Abstract The detection of explosives and explosive-related compounds is of major importance for the monitoring of explosive- contaminated sites. Current methods need to become cheaper and portable while maintaining a high sensitivity and selectivity level. In that sense, a silicon micro-analytical platform consisting of a three-dimensional micro-preconcentrator based on a hydrophobic zeolite, coupled to a silicon spiral micro-column was built. A chemical gas sensor acted as a miniaturized gas detector. This system allowed selective detection of orthonitrotoluene (ONT), an explosive-related compound at the sub-ppm level in the presence of toluene and moisture.

Spectrum analyzerChromatographySiliconExplosive materialgas micro-preconcentratorAnalytical chemistrychemistry.chemical_elementGeneral MedicineSensitivity (explosives)Toluenechemistry.chemical_compoundchemistryMicrosystemTrinitrotolueneGas detectorzeoliteSnO2 gas sensorGC micro-columnEngineering(all)TrinitrotolueneProcedia Engineering
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Benzene monitoring by micro-machined sensors with SnO2 layer obtained by using micro-droplet deposition technique

2011

International audience; SnO2 thin layers were deposited by the way of the micro-droplet technique. The sensor substrate consisted of a thin membrane developed on oxidised silicon wafer. The sensing layers were deposited by means of the micro-droplet technique into thin layers of about 100 nm. Such devices were tested for benzene detection. The obtained results showed a very high sensitivity for this chemical compound since 500 ppb were detected. The results presented in this paper were not focused on the reactional mechanism of benzene detection but rather on the development of a cheap and sensitive sensor using sol-gel and micro-droplet processes. Since these layers were elaborated using s…

Materials scienceAnalytical chemistry02 engineering and technologySubstrate (electronics)Gas sensors01 natural scienceschemistry.chemical_compoundMaterials ChemistryCoupling (piping)WaferSol-gel processElectrical and Electronic EngineeringBenzeneInstrumentationBenzene detectionSol-gelThin layersbusiness.industry010401 analytical chemistryMetals and Alloys021001 nanoscience & nanotechnologyCondensed Matter PhysicsTin oxideeye diseases0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic Materials[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistrychemistry[ CHIM.THEO ] Chemical Sciences/Theoretical and/or physical chemistryOptoelectronics0210 nano-technologybusinessLayer (electronics)SnO2
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Study of the chlorfenvinphos pesticide removal under different anodic materials and different reactor configuration.

2021

The present manuscript focuses on the study of the electrochemical oxidation of the insecticide Chlorfenvinphos (CVP). The assays were carried out under galvanostatic conditions using boron-doped diamond (BDD) and low-cost tin dioxide doped with antimony (Sb-doped SnO2) as anodes. The influence of the operating variables, such as applied current density, presence or absence of a cation-exchange membrane and concentration of supporting electrolyte, was discussed. The results revealed that the higher applied current density the higher degradation and mineralization of the insecticide for both anodes. The presence of the membrane and the highest concentration of Na2SO4 studied (0.1 M) as a sup…

Environmental EngineeringHealth Toxicology and MutagenesisPublic Health Environmental and Occupational HealthSb-doped SnO2 ceramic anodeChlorfenvinphosBDD anodeQuímicaGeneral MedicineGeneral ChemistryIndústria químicaPollutionElectrolysischlorfenvinphosEnvironmental Chemistryelectrochemical oxidationDiamondPesticidesMaterialsElectrodesOxidation-ReductionWater Pollutants ChemicalChemosphere
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Selective oxidative dehydrogenation of ethane over SnO2-promoted NiO catalysts

2012

[EN] Ni-Sn-O mixed oxides catalysts have been investigated for the oxidative dehydrogenation of ethane. The catalysts were prepared through the evaporation of aqueous solutions of nickel nitrate and tin oxalate and finally calcined in air at 500 degrees C for 2 h. These materials have been characterized by several techniques (N-2-adsorption, X-ray diffraction, High-Resolution Electron Microscopy, temperature programmed reduction, X-Ray Photoelectron Spectroscopy, Fourier Transformed Infrared Spectroscopy of adsorbed CO and O-18/O-16 isotope exchange). The addition of just a tiny amount of tin highly increases the selectivity to ethylene (from ca. 40% to 80-90%). Thus, high selectivity to et…

SnO2-promotedInorganic chemistrychemistry.chemical_elementInfrared spectroscopyTin oxideCatalysisOxalateCatalysisEthane ODHNiO catalystsEthane oxidationchemistry.chemical_compoundNickelEthyleneTin oxidechemistryDehydrogenationPhysical and Theoretical ChemistryTemperature-programmed reductionTinOxidative dehydrogenation of ethaneNickel oxideCatalyst characterization (XPS HREM oxygen isotope exchange FTIR CO adsorbed)
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Capacitance study of thin film SnO2:F/p-type a-Si:H heterojunctions

2011

Abstract We characterized SnO 2 :F/p-type a-Si:H heterojunctions by current-voltage (I-V) and capacitance-voltage (C-V) measurements at room temperature to determine the junction parameters. Samples with circular geometry and different diameters were characterized. The current scales with the junction area, and the current density J as a function of the voltage V is a slightly asymmetric curve with a super-linear behaviour (cubic law) for high voltages. Using a transmission line model valid for devices with circular geometry, we studied the effects of the SnO 2 :F resistivity on the measured capacitance when the SnO2:F layer works as an electrical contact. The measured C-V curve allows us t…

Materials scienceCondensed matter physicsheterojunctionDopingcapacitanceAnalytical chemistryHeterojunctionamorphous siliconCapacitanceElectrical contactsSettore FIS/03 - Fisica Della MateriaEnergy(all)TCOElectrical resistivity and conductivityThin filmCurrent densityVoltageSnO2:F
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