Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7686467 | Talanta | 2012 | 11 Pages |
Abstract
⺠New methods for preconcentration of chlorophenols reviewed. ⺠Environmental and food samples considered. ⺠Methods compared regarding matrices, analytes, detection limits and samples size. ⺠Sampling, storage, quality control also addressed.
Keywords
LPMESDEDLLMECRMDADSBSEQuEChERSHLBPCPECDFLDPOLEASESPEGCBMASEstyrene–divinylbenzenePDMSProgrammed temperature vaporizationLiquid–liquid–liquid microextractionLOQsSPMEFCCMonochlorophenolsPentafluorobenzylationMSPEcpspolydimethylsiloxane-divinylbenzeneLLEPTVAesLVIDispersive liquid–liquid microextractionMS/MSWaterStir bar sorptive extractionMembrane-assisted solvent extractionSolid phase extractionMagnetic solid phase extractionLiquid–liquid extractionAcetylAcetylationBiological tissueFluorescence labelingSolid phase microextractionLiquid phase microextractiontriethylamineLarge volume injectionUltraviolet detectiondiode array detectionElectrochemical detectionfluorescence detectionflame ionization detectionhydrophilic lipophilic balanceSteam distillationCryogenic trappingPurge and trapLiquid desorptionContinuous flowSoilFoodFIDThermal desorptionquick, easy, cheap, effective, rugged and safeaccelerated solvent extractionElectron capture detectionAtomic emission spectrometryMass spectrometryTandem mass spectrometryheadspaceLODsmicrowaveLimits of quantificationlimits of detectionCertified Reference MaterialsSamplingdry weightPolydimethylsiloxanePentachlorophenolTEAliquid chromatographyGas chromatographyIon chromatographyChlorophenolsgraphitized carbon black
Related Topics
Physical Sciences and Engineering
Chemistry
Analytical Chemistry
Authors
Paulo de Morais, Teodor Stoichev, M. Clara P. Basto, M. Teresa S.D. Vasconcelos,