0000000000266793

AUTHOR

L. Segovia-martínez

showing 4 related works from this author

A direct Capillary Liquid Chromatography with electrochemical detection method for determination of phenols in water samples

2010

A fast and direct method based on the use of Capillary Liquid Chromatography (LC) with electrochemical (EC) detection has been described for phenols pollutants in water samples. Concretely, phenol, o-cresol, 2-chlorophenol and bisphenol A have been selected as target analytes. The combination of Capillary LC with EC detection avoided the necessity of preconcentration steps typically used in environmental analysis. The sample injected volume was 2 μL. The achieved detection limits were between 1 and 2 μg/L and the linear dynamic range was up to 50 μg/L for all studied phenols. The precision and uncertainty were satisfactory. The analysis time per sample was 10 min. The proposed procedure has…

Detection limitAnalyteChromatographyEnvironmental analysisCapillary actionOrganic ChemistryAnalytical chemistryReproducibility of ResultsFresh WaterGeneral MedicineSensitivity and SpecificityBiochemistryHigh-performance liquid chromatographyAnalytical Chemistrychemistry.chemical_compoundPhenolschemistryCapillary ElectrochromatographyLinear ModelsPhenolSeawaterPhenolsQuantitative analysis (chemistry)Water Pollutants ChemicalJournal of Chromatography A
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Improving detection limits for organotin compounds in several matrix water samples by derivatization-headspace-solid-phase microextraction and GC-MS.

2010

Triethyltin, tributyltin, diphenyltin and triphenyltin were selected as model compounds. The method is based on in situ ethylation and simultaneous headspace-solid-phase microextraction (HS-SPME) and gas chromatographic-mass spectrometry analysis (GC-MS). The extraction procedure was optimized studying some variables such as reaction time, salinity, sample volume and headspace volume. SPME-GC-MS and SPME-GC-FID techniques were compared; quality assurance parameters such as sensitivity, selectivity and precision were established. The proposed procedure showed limits of detection between 0.025 and 1 ng/L. The linearity was in the 0.025-5000 ng/L range. The precision expressed as relative stan…

Detection limitCromatografia de gasosChromatographyAnalytical chemistrySolid-phase microextractionAnalytical Chemistrylaw.inventionMatrix (chemical analysis)chemistry.chemical_compoundchemistrylawFlame ionization detectorSample preparationGas chromatographyCompostos organometàl·licsAigües residuals AnàlisiGas chromatography–mass spectrometryDerivatizationTalanta
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Occurrence of priority pollutants in WWTP effluents and Mediterranean coastal waters of Spain

2011

A comprehensive study aimed at evaluating the occurrence, significance of concentrations and spatial distribution of priority pollutants (PPs) along the Comunidad Valenciana coastal waters (Spain) was carried out in order to fulfil the European Water Framework Directive (WFD). Additionally, PP concentrations were also analysed in the effluent of 28 WWTPs distributed along the studied area. In coastal waters 36 organic pollutants of the 71 analysed, including 26 PPs were detected although many of them with low frequency of occurrence. Only 13 compounds, which belong to four different classes (VOCs, organochlorinated pesticides, phthalates and tributyltin compounds (TBT)) showed a frequency o…

Unclassified drugWater conservationEffluentsWastewaterOceanographyPhthalic acidWaste Disposal Fluidchemistry.chemical_compoundPentachlorobenzeneWater Pollution ChemicalWater treatmentOrganic pollutantWater pollutionWater pollutantPriority pollutants (PPs)Environmental quality standards (EQS)TributyltinEstersVolatile organic compoundPriority pollutantPollutionCoastal waterWater Framework DirectiveWater pollutionEnvironmental chemistryCoastal watersSeasonsEnvironmental MonitoringWaste water treatment plantPentachlorobenzeneAquatic ScienceWwtp effluentChlorobenzenesArticleHazardous SubstancesWWTP effluentsPhenolsWater Framework Directive (WFD)Pollution monitoringDiethylhexyl PhthalateMediterranean SeaSpatial distributionSeawaterSea pollutionEffluentTECNOLOGIA DEL MEDIO AMBIENTEPollutantOrganochlorine pesticideOctylphenolVolatile Organic CompoundsPhenolConcentration (process)Environmental engineeringQuality controlEnvironmental quality standardsPhthalic acid 2 ethylhexyl monoesterEffluentchemistrySpainComunidad ValenciaConcentration (parameters)TributyltinEnvironmental scienceOrganic pollutantsWater qualityTrialkyltin CompoundsOrganic pollutionPollution detectionWater Pollutants ChemicalWaste disposal
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Miniaturized matrix solid phase dispersion procedure and solid phase microextraction for the analysis of organochlorinated pesticides and polybromina…

2009

Abstract This work has developed a miniaturized method based on matrix solid phase dispersion (MSPD) using C18 as dispersant and acetonitrile–water as eluting solvent for the analysis of legislated organochlorinated pesticides (OCPs) and polybrominated diphenylethers (PBDEs) in biota samples by GC with electron capture (GC-ECD). The method has compared Florisil®-acidic Silica and C18 as dispersant for samples as well as different solvents. Recovery studies showed that the combination of C18–Florisil® was better when using low amount of samples (0.1 g) and with low volumes of acetonitrile–water (2.6 mL). The use of SPME for extracting the analytes from the solvent mixture before the injectio…

Detection limitChromatography GasChromatographyChemistryOrganic ChemistryPesticide ResiduesAnalytical chemistryGeneral MedicineSolid-phase microextractionBiochemistryDispersantBivalviaAnalytical ChemistrySolventElectron capture detectorHalogenated Diphenyl EthersHydrocarbons ChlorinatedAnimalsSample preparationSolid phase extractionGas chromatographyFood AnalysisSolid Phase MicroextractionJournal of Chromatography A
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