Search results for "Solid Phase Microextraction"

showing 6 items of 56 documents

Dry vs soaked wood: Modulating the volatile extractible fraction of oak wood by heat treatments

2012

The aim of this study was to analyze the impact of the water content of wood on the concentrations of volatile compounds which can be extracted after heat treatments. Head Space-Solid Phase Micro Extraction Gas Chromatography coupled to Mass Spectrometry (HS-SPME GC-MS) has been used to compare the concentrations of six aroma compounds (vanillin, furfural, eugenol, guaiacol and cis- and trans-whisky lactones) in hydroalcoholic extracts of heated oak wood samples either previously soaked in hot water or not. Except for eugenol, concentrations of extracted aromas appeared to be lower in soaked woods than in dry woods for temperatures up to 200 °C. If a delaying effect of water could explain s…

[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionwaterSolid-phase microextractionFurfural01 natural sciencesGas Chromatography-Mass SpectrometryAnalytical Chemistrychemistry.chemical_compoundQuercus0404 agricultural biotechnologyoakFuraldehydeWater contentAromaSolid Phase MicroextractionVolatile Organic CompoundsChromatographybiologyPlant ExtractsVanillin010401 analytical chemistryExtraction (chemistry)GuaiacolTemperaturetechnology industry and agriculturefood and beverages04 agricultural and veterinary sciencesGeneral Medicinebiology.organism_classification040401 food scienceWood0104 chemical sciencesEugenolchemistryGuaiacol[SDV.AEN]Life Sciences [q-bio]/Food and NutritionFood Science
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Analysis of Contact Traces of Cannabis by In-Tube Solid-Phase Microextraction Coupled to Nanoliquid Chromatography

2018

Because of its inherent qualities, in-tube solid-phase microextraction (IT-SPME) coupled on-line to nanoliquid chromatography (nanoLC) can be a very powerful tool to address the new challenges of analytical laboratories such as the analysis of traces of complex samples. This is the case of the detection of contact traces of drugs, especially cannabis. The main difficulties encountered in the analysis of traces of cannabis plants on surfaces are the low amount of sample available (typically &lt

cannabisTHCmedicine.medical_treatmentSample (material)nanoliquid chromatography (nanoLC)CannabinolPharmaceutical Sciencecontact trace analysisSolid-phase microextraction01 natural sciencesArticleGas Chromatography-Mass SpectrometryAnalytical Chemistrylcsh:QD241-441Matrix (chemical analysis)03 medical and health scienceschemistry.chemical_compound0302 clinical medicinelcsh:Organic chemistryDrug DiscoverymedicineCannabidiolNanotechnology030216 legal & forensic medicineDronabinolPhysical and Theoretical ChemistrySolid Phase MicroextractionChromatographybiologyChemistryCannabinoidsPlant Extracts010401 analytical chemistryOrganic ChemistryExtraction (chemistry)biology.organism_classification0104 chemical sciencesChemistry (miscellaneous)CannabinolMolecular MedicineCannabinoidCannabisCannabidiolmedicine.drugin-tube solid-phase microextraction (IT-SPME)Molecules : A Journal of Synthetic Chemistry and Natural Product Chemistry
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In-tube solid-phase microextraction coupled by in valve mode to capillary LC-DAD: Improving detectability to multiresidue organic pollutants analysis…

2009

Abstract A simple and fast capillary chromatographic method has been developed to identify and quantify organic pollutants at sub-ppb levels in real water samples. The major groups of pesticides (organic halogens, organic phosphorous, and organic nitrogen compounds), some hydrocarbons (polycyclic aromatic hydrocarbons), phthalates and some phenols such as phenol and bisphenol A (endocrine disruptors) were included in this study. The procedure was based on coupling, in-tube solid-phase microextraction (IT-SPME) by using a conventional GC capillary column (95% methyl–5% phenyl substituted backbone, 80 cm × 0.32 mm i.d., 3 μm film thickness) in the injection valve to capillary liquid chromatog…

chemistry.chemical_classificationDetection limitChromatographyChemistryCapillary actionOrganic ChemistryAnalytical chemistryGeneral MedicineReversed-phase chromatographySolid-phase microextractionSensitivity and SpecificityBiochemistryHigh-performance liquid chromatographyAnalytical ChemistryHydrocarbonSeawaterSample preparationPolycyclic HydrocarbonsLasers SemiconductorOrganic ChemicalsSolid Phase MicroextractionWater Pollutants ChemicalChromatography LiquidJournal of Chromatography A
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Distribution of volatile organic compounds in Sicilian groundwaters analysed by head space-solid phase micro extraction coupled with gas chromatograp…

2008

This work presents the results of an assessment of the existence and concentration of 13 volatile organic compounds (VOCs) in groundwaters from 14 hydrological basins in Sicily (25,710km (2)). On the basis of hydrological, hydrogeochemical and geological studies, 324 sampling points were selected. All groundwater sampled were collected twice, from October to December 2004 and from February to May 2005, and were analysed to determine the concentration and spatial distribution of the VOCs in the aquifers. The need to analyze a large number of samples in a short space of time so as to obtain quantitative analyses in trace concentration levels spurred us to create a new analytical method, both …

chemistry.chemical_classificationgeographyVolatile Organic CompoundsEnvironmental Engineeringgeography.geographical_feature_categoryEcological ModelingAquiferSolid-phase microextractionPollutionGas Chromatography-Mass SpectrometrychemistryEnvironmental chemistryGroundwater pollutionVolatile organic compoundGas chromatographyGas chromatography–mass spectrometryWater pollutionWaste Management and DisposalSicilyGroundwaterSolid Phase MicroextractionWater Pollutants ChemicalWater Science and TechnologyCivil and Structural EngineeringEnvironmental MonitoringWater research
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Partition of volatile compounds in pea globulin–maltodextrin aqueous two-phase system

2014

International audience; This study is based on the assumption that the off-flavour of pea proteins might be decreased using the retention of volatile compounds by a mixture with another biopolymer. The partition of volatile compounds in an aqueous system containing pea protein and maltodextrins was followed under thermodynamic incompatibility conditions. Firstly, the phase diagram of the system was established. Then, the partition of aroma compounds between the phase rich in protein and the phase rich in maltodextrin was measured by SPME–GC–MS. There was a transfer of volatile compounds during phase separation. Variations of pH were also used to vary the retention of volatile compounds by p…

engineering.materialGas Chromatography-Mass SpectrometryAnalytical Chemistrychemistry.chemical_compoundMaltodextrinPolysaccharidesPhase (matter)[SDV.IDA]Life Sciences [q-bio]/Food engineeringOrganic chemistry[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologySPME–GC–MSSolid Phase MicroextractionAromaPlant ProteinsPhase diagramVolatile Organic CompoundsChromatographyAqueous solutionbiologyChemistryPea proteinPeasAqueous two-phase systemfood and beveragesGlobulinsGeneral MedicineMaltodextrinbiology.organism_classificationPhase diagramSolutionsTasteOdorantsPea proteinengineeringVolatile compoundsThermodynamicsBiopolymerFood SciencePartition
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Evaluation of Superparamagnetic Silica Nanoparticles for Extraction of Triazines in Magnetic in-Tube Solid Phase Microextraction Coupled to Capillary…

2014

The use of magnetic nanomaterials for analytical applications has increased in the recent years. In particular, magnetic nanomaterials have shown great potential as adsorbent phase in several extraction procedures due to the significant advantages over the conventional methods. In the present work, the influence of magnetic forces over the extraction efficiency of triazines using superparamagnetic silica nanoparticles (NPs) in magnetic in tube solid phase microextraction (Magnetic-IT-SPME) coupled to CapLC has been evaluated. Atrazine, terbutylazine and simazine has been selected as target analytes. The superparamagnetic silica nanomaterial (SiO2-Fe3O4) deposited onto the surface of a capil…

magnetic nanoparticlesChromatographyMaterials scienceMagnetismGeneral Chemical EngineeringExtraction (chemistry)Solid-phase microextractionMagnetic susceptibilityArticleNanomaterialslcsh:ChemistryAdsorptionlcsh:QD1-999magnetic nanoparticles; triazines; magnetic susceptibility; on-line solid phase microextraction; environmental samplestriazinesenvironmental samplesMagnetic nanoparticlesGeneral Materials Scienceon-line solid phase microextractionmagnetic susceptibilitySuperparamagnetismNanomaterials
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