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Volumn 33, Issue 6-7, 2010, Pages 841-852
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Dual hydrophilic interaction-RP retention mechanism on polar columns: Structural correlations and implementation for 2-D separations on a single column
a
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Author keywords
Dual retention mechanism; Flavones; Hydrophilic interaction LC; Linear solvation energy relationship model; Phenolic acids
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Indexed keywords
AQUEOUS MOBILE PHASIS;
DESCRIPTORS;
DIOL COLUMN;
DIPOLE-DIPOLE;
EQUILIBRATION TIME;
HIGH CONCENTRATION;
HYDROPHILIC INTERACTION;
LINEAR SOLVATION ENERGY RELATIONSHIPS;
MOBILE PHASIS;
MOBILE-PHASE COMPOSITION;
MOLECULAR SIZE;
NATURAL ANTIOXIDANTS;
NORMAL PHASE;
PHASE SYSTEMS;
PHENOLIC ACIDS;
POLAR COLUMNS;
RETENTION MECHANISM;
SILICA HYDRIDE;
STRUCTURAL CORRELATION;
ORGANIC ACIDS;
PHASE SEPARATION;
PHENOLS;
POLYETHYLENE GLYCOLS;
SILICA;
SIZE SEPARATION;
SOLVATION;
HYDROPHILICITY;
4 HYDROXYBENZOIC ACID;
4 HYDROXYPHENYLACETIC ACID;
7 HYDROXYFLAVONE;
AMPHOLYTE;
AURANTIIN;
BIOCHANIN A;
CAFFEIC ACID;
CHLOROGENIC ACID;
FERULIC ACID;
FLAVONE;
FLAVONE DERIVATIVE;
GALLIC ACID;
HESPERETIN;
HESPERIDIN;
PARA COUMARIC ACID;
PHENOL DERIVATIVE;
POLYMER;
PROTOCATECHUIC ACID;
PROTON;
QUERCETIN;
RUTOSIDE;
SALICYLIC ACID;
SINAPIC ACID;
SYRINGIC ACID;
VANILLIC ACID;
ARTICLE;
CHEMICAL COMPOSITION;
CHROMATOGRAPHY;
DIPOLE;
DRUG RESEARCH;
DRUG STRUCTURE;
HYDROPHILIC INTERACTION CHROMATOGRAPHY;
HYDROPHILICITY;
INTERMETHOD COMPARISON;
MOLECULAR SIZE;
PRIORITY JOURNAL;
REPRODUCIBILITY;
REVERSED PHASE LIQUID CHROMATOGRAPHY;
SOLVATION;
STRUCTURE ANALYSIS;
SURFACE PROPERTY;
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EID: 77950806038
PISSN: 16159306
EISSN: 16159314
Source Type: Journal
DOI: 10.1002/jssc.200900678 Document Type: Article |
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Times cited : (84)
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References (31)
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