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Volumn 1216, Issue 44, 2009, Pages 7527-7532
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Application of dynamic liquid-phase microextraction and injection port derivatization combined with gas chromatography-mass spectrometry to the determination of acidic pharmaceutically active compounds in water samples
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Author keywords
Injection port derivatization; Liquid phase microextraction; Pharmaceutically active compounds
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Indexed keywords
ANALYTES;
CHROMATOGRAPHIC SEPARATIONS;
CLOFIBRIC ACID;
DERIVATIZATION REAGENT;
DERIVATIZATIONS;
DYNAMIC HOLLOW FIBER LIQUID-PHASE MICROEXTRACTION;
DYNAMIC LIQUID-PHASE MICROEXTRACTION;
ENRICHMENT FACTORS;
EXTRACTION EFFICIENCIES;
EXTRACTION TIME;
GAS CHROMATOGRAPHY-MASS SPECTROMETRY;
INJECTION PORT DERIVATIZATION;
INJECTION PORTS;
KETOPROFEN;
LIMITS OF DETECTION;
LIQUID PHASIS;
LIQUID-PHASE MICROEXTRACTION;
MICROEXTRACTION;
NAPROXENS;
OPTIMAL CONDITIONS;
PHARMACEUTICALLY ACTIVE COMPOUNDS;
PROGRAMMABLE SYRINGE PUMP;
REPRODUCIBILITIES;
SELECTIVE ION MONITORING;
TAP WATER;
WATER SAMPLES;
CHROMATOGRAPHIC ANALYSIS;
DRUG PRODUCTS;
GAS CHROMATOGRAPHY;
LIQUID CHROMATOGRAPHY;
LIQUIDS;
MASS SPECTROMETERS;
MASS SPECTROMETRY;
ORGANIC SOLVENTS;
WASTEWATER;
WATER INJECTION;
SOLVENT EXTRACTION;
CLOFIBRIC ACID;
IBUPROFEN;
KETOPROFEN;
NAPROXEN;
ORGANIC SOLVENT;
PHENYLTRIMETHYLAMMONIUM;
ACIDITY;
ARTICLE;
DERIVATIZATION;
DRUG DETERMINATION;
DRUG STRUCTURE;
GAS CHROMATOGRAPHY;
HOLLOW FIBER;
ION MONITORING;
LIQUID PHASE MICROEXTRACTION;
MASS SPECTROMETRY;
PRIORITY JOURNAL;
SEPARATION TECHNIQUE;
WASTE WATER;
WATER SAMPLING;
CHEMICAL FRACTIONATION;
CHROMATOGRAPHY, GAS;
GAS CHROMATOGRAPHY-MASS SPECTROMETRY;
MOLECULAR STRUCTURE;
QUATERNARY AMMONIUM COMPOUNDS;
SOLVENTS;
WATER POLLUTANTS, CHEMICAL;
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EID: 70349777611
PISSN: 00219673
EISSN: None
Source Type: Journal
DOI: 10.1016/j.chroma.2009.03.051 Document Type: Article |
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Times cited : (43)
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References (36)
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