|
Volumn 1318, Issue , 2013, Pages 217-225
|
Improved gas chromatography-flame ionization detector analytical method for the analysis of epoxy fatty acids
|
Author keywords
Epoxy fatty acids; FAMEs; GC FID; Lipid oxidation; Oxygenated polar fatty acids
|
Indexed keywords
COEFFICIENT OF VARIATION;
FAMES;
FATTY ACID METHYL ESTERS (FAMES);
FLAME IONIZATION DETECTORS;
GAS CHROMATOGRAPHY-FLAME IONIZATION DETECTORS;
GC-FID;
LIPID OXIDATION;
SOLID-PHASE EXTRACTION;
CHROMATOGRAPHIC ANALYSIS;
CHROMATOGRAPHY;
GAS GENERATORS;
SEPARATION;
SILICA GEL;
FATTY ACIDS;
ARACHIS OIL;
CORN OIL;
EPOXIDE;
FATTY ACID;
FATTY ACID ESTER;
METHYL 10 HYDROXY OCTADEC 12 ENOATE TRIMETHYLSILYL ETHER;
METHYL 10 HYDROXYOCTADECANOATE TRIMETHYLSILYL ETHER;
METHYL 12 HYDROXY OCTADEC 9 ENOATE TRIMETHYLSILYL ETHER;
METHYL 12,13 EPOXY 9,15 OCTADECADIENOATE;
METHYL 12,13 EPOXY OCTADEC 9 ENOATE;
METHYL 13 HYDROXY OCTADEC 9 ENOATE TRIMETHYLSILYL ETHER;
METHYL 15,16 EPOXY 9,12 OCTADECADIENOATE;
METHYL 9 HYDROXY OCTADEC 12 ENOATE TRIMETHYLSILYL ETHER;
METHYL 9 HYDROXYOCTADECANOATE TRIMETHYLSILYL ETHER;
METHYL 9,10 EPOXY 12,15 OCTADECADIENOATE;
METHYL 9,10 EPOXY OCTADEC 12 ENOATE;
METHYL 9,10 EPOXYOCTADECANOATE;
OLIVE OIL;
RAPESEED OIL;
SOYBEAN OIL;
SUNFLOWER OIL;
UNCLASSIFIED DRUG;
VEGETABLE OIL;
ANALYTIC METHOD;
ARTICLE;
CALIBRATION;
CHEMICAL REACTION;
ELUTION;
FATTY ACID ANALYSIS;
GAS CHROMATOGRAPHY;
HYDROGENATION;
LIMIT OF DETECTION;
LIMIT OF QUANTITATION;
LIPID COMPOSITION;
LIPID OXIDATION;
PRIORITY JOURNAL;
PROCESS OPTIMIZATION;
ROOM TEMPERATURE;
SEPARATION TECHNIQUE;
SILYLATION;
SOLID PHASE EXTRACTION;
SYNTHESIS;
THIN LAYER CHROMATOGRAPHY;
EPOXY FATTY ACIDS;
FAMES;
GC-FID;
LIPID OXIDATION;
OXYGENATED POLAR FATTY ACIDS;
CHROMATOGRAPHY, GAS;
FATTY ACIDS;
FLAME IONIZATION;
PLANT OILS;
|
EID: 84887131771
PISSN: 00219673
EISSN: 18733778
Source Type: Journal
DOI: 10.1016/j.chroma.2013.10.025 Document Type: Article |
Times cited : (33)
|
References (35)
|