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Volumn 1217, Issue 48, 2010, Pages 7514-7522
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Towards porous polymer monoliths for the efficient, retention-independent performance in the isocratic separation of small molecules by means of nano-liquid chromatography
a
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Author keywords
Conversion; Free radical copolymerization; Gel porosity; Hydrodynamic dispersion; Mass transfer; Mesopores; Network heterogeneity; Plate height; Porosity; Porous polymer monolith; Retention; Reversed phase nano LC
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Indexed keywords
CONVERSION;
FREE-RADICAL COPOLYMERIZATION;
GEL POROSITY;
HYDRODYNAMIC DISPERSION;
MESO-PORES;
NETWORK HETEROGENEITY;
PLATE HEIGHT;
POROUS POLYMER MONOLITHS;
RETENTION;
REVERSED PHASE;
COLUMN CHROMATOGRAPHY;
COPOLYMERIZATION;
DISPERSIONS;
FLUID DYNAMICS;
GAS ADSORPTION;
GELS;
HYDRODYNAMICS;
ION CHROMATOGRAPHY;
MASS TRANSFER;
MOLECULES;
MONOLITHIC INTEGRATED CIRCUITS;
OPTIMIZATION;
PHASE SEPARATION;
POLYMERS;
POROSITY;
SCAFFOLDS;
STYRENE;
POROUS PLATES;
ALKYLBENZENE;
DIVINYLBENZENE;
ETHYLBENZENE;
POLYMER;
STYRENE;
TOLUENE;
ADSORPTION;
ARTICLE;
CONTROLLED STUDY;
CROSS LINKING;
ELECTRON MICROSCOPY;
HYDRODYNAMICS;
HYDROPHOBICITY;
LIQUID CHROMATOGRAPHY;
PERMEABILITY;
PHASE SEPARATION;
POLYMERIZATION;
POROSITY;
PRIORITY JOURNAL;
QUANTITATIVE ANALYSIS;
REVERSED PHASE LIQUID CHROMATOGRAPHY;
SCANNING ELECTRON MICROSCOPY;
SEPARATION TECHNIQUE;
VELOCITY;
ADSORPTION;
CHROMATOGRAPHY, LIQUID;
ORGANIC CHEMICALS;
POLYMERS;
POROSITY;
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EID: 78149358926
PISSN: 00219673
EISSN: None
Source Type: Journal
DOI: 10.1016/j.chroma.2010.09.077 Document Type: Article |
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Times cited : (90)
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References (44)
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