Search results for "vanA"

showing 10 items of 345 documents

Automation of the determination of hydrogen peroxide, dichromate, formaldehyde and bicarbonate in milk by flow injection analysis

1992

Automatic flow injection methods for the determination of hydrogen peroxide, dichromate, formaldehyde and bicarbonate in dairy products are proposed. They are based on reaction with vanadium pentoxide, diphenyl-carbazide, fuchsine-sulphur dioxide and alizarin, respectively. Sample pre-treatment (paper and membrane filtration, dialysis) is widely discussed for on-line incorporation. The usefulness of these methods was tested by applying them to different commercial samples, satisfactory results being obtained in all instances.

Flow injection analysisChromatographyBicarbonateFormaldehydeAnalytical chemistryVanadiumchemistry.chemical_elementAlizarinBiochemistryAnalytical Chemistrychemistry.chemical_compoundchemistryPentoxideSample preparationHydrogen peroxideFresenius' Journal of Analytical Chemistry
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Predicting breakthrough of vanadium in fixed-bed absorbent columns with complex groundwater chemistries: A multi-component granular ferric hydroxide−…

2020

Granular ferric hydroxide (GFH) is often used for fixed bed adsorbent (FBA) columns in groundwater purification units around the world to remove arsenate contaminations. Groundwater can contain also other toxic (e.g., antimonite and vanadate) and non-toxic oxo-anions (phosphate and silicic acid) that are known to affect FBA lifetimes. Therefore, understanding the breakthrough of toxic compounds intended for removal by FBA is essential to their design, and is important to predict accurately breakthrough curves (BTCs) for FBAs in waterworks to plan future operating costs. Rapid small-scale column tests (RSCCT) and pilot-scale FBA were used to simulate vanadate BTCs for complex groundwater che…

Full PaperChemistryEcological ModelingInorganic chemistryArsenateVanadiumchemistry.chemical_elementPollutionlcsh:TD1-1066HSDMchemistry.chemical_compoundRSCCTAdsorptionCD-MUSICMass transferVanadateFBAFreundlich equationVanadateAdsorptionSilicic acidlcsh:Environmental technology. Sanitary engineeringWaste Management and DisposalGroundwaterWater Science and TechnologyWater Research X
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Up-conversion luminescence of GdVO4:Nd3+/Er3+ and GdVO4:Nd3+/Ho3+ phosphors under 808 nm excitation

2018

All authors acknowledge to the COST Action CM1403: The European upconversion network - from the design of photon-upconverting nanomaterials to biomedical applications (2014–2018). The authors from the University of Belgrade acknowledge the financial support of the Ministry of Education, Science and Technological Development of the Republic of Serbia (Project Nos. 45020 and 172056 ). K. S. acknowledges the Latvian National Research Program IMIS2 (Grant No. 302/2012 ). T. G. acknowledges the ERDF PostDoc project No. 1.1.1.2/VIAA/1/16/215 ( 1.1.1.2/16/I/001 ).

Gadolinium vanadateMaterials scienceAnalytical chemistryPhosphor02 engineering and technologyUp-conversion010402 general chemistry01 natural sciencesIonInorganic Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]Electrical and Electronic EngineeringPhysical and Theoretical ChemistrySpectroscopyEr3+/Nd3+ [GdVO4]Organic Chemistry808-nm excitation021001 nanoscience & nanotechnologyAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic MaterialsWavelengthHo3+/Nd3+ [GdVO4]Up conversionCrystallite0210 nano-technologyLuminescenceExcitationVisible spectrumOptical Materials
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Vanadium‐Doped Zircon and Zirconia Materials Prepared from Gel Precursors as Site‐Selective Electrochemical Sensors

2003

Abstract Polymer film electrodes incorporating vanadium‐doped zircon (V x ZrSiO4, 0.00 < x < 0.10) and vanadium‐doped monoclinic and tetragonal zirconias (V x ZrO2, 0.00 < x < 0.15), prepared by heat treatment of gel precursors, exhibit a significant site‐selective electrocatalytic activity towards the oxidation of amino acids, polyalcohols, and polyhydroxycarboxylic acids in alkaline media. Catalysis of the oxidation of carboxylate and alcohol groups involves a relatively slow chemical reaction between the substrate and vanadium centers, while the oxidation of thiolate in cysteine can be attributed to the oxidation of an adduct formed by vanadium centers and the substrate.

General Chemical EngineeringInorganic chemistrySubstrate (chemistry)Vanadiumchemistry.chemical_elementElectrocatalystElectrochemistryCatalysischemistry.chemical_compoundchemistryCubic zirconiaCarboxylateInstrumentationGeneral Environmental ScienceSol-gelInstrumentation Science &amp; Technology
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Psicodramma ero(t)icomico di una vedova siciliana: 7 uomini 7 di Silvana Grasso

2007

Saggio sulla scrittrice Silvana Grasso e il suo romanzo breve 7 uomini 7

Grasso Silvanatopoi letterariSiciliavedova
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Dissimilar laser welding of AISI 316L stainless steel to Ti6–Al4–6V alloy via pure vanadium interlayer

2015

Abstract Successful continuous laser joining of AISI 316L stainless steel with Ti6Al4V titanium alloy through pure vanadium interlayer has been performed. Three welding configurations were tested: one-pass welding involving all three materials and two pass and double spot welding involving creation of two melted zones separated by remaining solid vanadium. For the most relevant welds, the investigation of microstructure, phase content and mechanical properties has been carried out. In case of formation of a single melted zone, the insertion of steel elements into V-based solid solution embrittles the weld. In case of creation of two separated melted zones, the mechanical resistance of the j…

Heat-affected zoneMaterials scienceMechanical EngineeringMetallurgyAlloyLaser beam weldingVanadiumchemistry.chemical_elementTitanium alloyWeldingengineering.materialCondensed Matter PhysicsMicrostructurelaw.inventionchemistryMechanics of MaterialslawengineeringGeneral Materials ScienceSpot weldingMaterials Science and Engineering: A
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Investigation of the hyperfine structure of weak atomic Vanadium lines by means of Fourier transform spectroscopy

2015

In continuation of our work on the investigation of the hyperfine structure (HFS) of atomic vanadium, we analyzed weak spectral lines in a Fourier transform spectrum that have not been investigated up to now. The main objective of this work was the determination of the magnetic dipole HFS constant A of the energy level at 15 103.784 cm−1, which was the only energy level with unknown A value up to the energy of 28 000 cm−1. Additionally, other gaps in the data of magnetic dipole HFS could be filled in. The spectrum of vanadium–argon plasma in a hollow cathode lamp is recorded in the spectral range from 12 500 to 26 000 cm−1 or 800 to 380 nm, respectively. The HFS of 42 weak atomic vanadium l…

Hollow-cathode lampPhysicsVanadiumchemistry.chemical_elementPlasmaCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSpectral lineFourier transform spectroscopylaw.inventionsymbols.namesakeFourier transformchemistrylawsymbolsPhysics::Atomic PhysicsAtomic physicsHyperfine structureMagnetic dipoleJournal of Physics B: Atomic, Molecular and Optical Physics
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Calibration of in situ chlorophyll fluorometers for organic matter

2019

AbstractOrganic matter (OM) other than living phytoplankton is known to affect fluorometric in situ assessments of chlorophyll in lakes. For this reason, calibrating fluorometric measurements for OM error is important. In this study, chlorophyll (Chl) fluorescence was measured in situ in multiple Finnish lakes using two sondes equipped with Chl fluorometers (ex.470/em.650–700 nm). OM absorbance (A420) was measured from water samples, and one of the two sondes was also equipped with in situ fluorometer for OM (ex.350/em.430 nm). The sonde with Chl and OM fluorometers was also deployed continuously on an automated water quality monitoring station on Lake Konnevesi. For data from multiple lake…

In situveden väri010504 meteorology & atmospheric sciencesFinnish lakesNorthern Europe010501 environmental sciences01 natural scienceschemistry.chemical_compoundFluorometerlakesCentral Finlandautomated monitoringVesijärviFinlandorganic matterwater colourchemistry.chemical_classificationhumic lakes6. Clean waterhumusjärvetEuropeEnvironmental chemistryorgaaninen ainesfluorescenceorgaaninen aineVanajavesiklorofylliChlorophyll aoptical sensorskalibraatiochlorophyll aAquatic SciencejärvetAbsorbancePhytoplanktonOrganic matterSouthern FinlandJyväsjärvivedenväri0105 earth and related environmental sciencesin situfluoresenssivedenlaatucalibrationautomaattinen seurantaoptiset anturitchemistryChlorophyllKonnevesisuomalaiset järvetEnvironmental scienceWater qualityHydrobiologia
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Synthesis and Characterization of New Keggin-Based Structure Tungstocobaltates: K9[Co3+W11O39] and its Vanadium Derivatives, K8[Co2+W11V4+O40], K7[Co…

1995

Abstract Good yield synthesis of the potassium salts of four new interrelated : olyoxometalates, [Co3+W11O39]9-(I), [Co2+W11V4+O4]8-(II), [Co2+W11V5+O40]7-(III), and [Co3+W11V5+O40]6-(IV), are reported. The title compounds have been characterized by IR and UV-Vis.-NIR spectroscopies, cyclic voltammetry and magnetic measurements. IR spectra confirm that I has the lacunary structure of an undecatungstate anion, while II through IV have a substituted α-Keggin structure with the vanadium atom located at an octahedral site replacing one tungsten atom. Optical data confirm the oxidation states for both, the Co and V atoms, as formulated for I through IV.

Inorganic ChemistryCrystallographychemistryOctahedronPotassiumYield (chemistry)Infrared spectroscopychemistry.chemical_elementVanadiumPhysical and Theoretical ChemistryCyclic voltammetryLacunary functionIonSynthesis and Reactivity in Inorganic and Metal-Organic Chemistry
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Synthesis, Structure, and Properties of BaVO2(AsO4):  a New Vanadium Arsenate Containing the V2O42+ Core

1997

The new vanadium arsenate BaAsVO6 has been synthesized hydrothermally and structurally characterized by single-crystal X-ray diffraction, IR spectroscopy, and magnetic susceptibility measurements. It crystallizes in the monoclinic system, space group P21/c with unit cell parameters a = 5.645(1) A, b = 10.243(1) A, c = 8.945(1) A, β = 90.60(1)°, and Z = 2. The layered structure is built up from V2O42+ units and AsO43- anions, the AsO43- ligands being coordinated to two (V2O4)2+ units in both, terminal and bridging μ2-AsO43- fashion. The [VO2(AsO4)]2- layers are separated by Ba2+ cations. The V2O42+ unit has no precedence in oxo-vanadium chemistry.

Inorganic ChemistryDiffractionchemistry.chemical_compoundCrystallographyChemistryArsenateVanadiumchemistry.chemical_elementInfrared spectroscopyPhysical and Theoretical ChemistryMagnetic susceptibilityMonoclinic crystal systemLayered structureInorganic Chemistry
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