Single walled carbon nanotube length determination by asymmetrical-flow field-flow fractionation hyphenated to multi-angle laser-light scattering

Journal of Chromatography A

Volumn 1217, Issue 50, 2010, Pages 7891-7897

  Gigault, Julien ^a   Le Hécho, Isabelle ^a   Dubascoux, Stéphane ^a   Potin Gautier, Martine ^a   Lespes, Gaëtane ^a  

^a UNIVERSITÉ DE PAU ET DES PAYS DE L'ADOUR   (France)

Author keywords

Hyphenated technique; Length measurement; Size fractionation; SWCNT

Indexed keywords

AMMONIUM NITRATE; ASYMMETRICAL FLOW FIELD-FLOW FRACTIONATIONS; CROSS FLOWS; FLOW FIELD-FLOW FRACTIONATION; GYRATION RADII; HYDRODYNAMIC RADIUS; HYPHENATED TECHNIQUES; LENGTH DETERMINATION; LENGTH DISTRIBUTIONS; LENGTH MEASUREMENT; MOBILE PHASE; MULTIANGLE LASER-LIGHT SCATTERING; NORMAL MODES; SHAPE ANALYSIS; SIZE FRACTIONATION; SWCNT;

AMMONIUM COMPOUNDS; CARBON NANOTUBES; DYNAMIC LIGHT SCATTERING; FLOW FIELDS; IONIC STRENGTH; LIQUID CHROMATOGRAPHY; REFRACTION; SCATTERING; SINGLE-WALLED CARBON NANOTUBES (SWCN);

FRACTIONATION;

AMMONIUM NITRATE; PHOSMET; SINGLE WALLED NANOTUBE;

ACCURACY; ARTICLE; ASYMMETRICAL FLOW FIELD FLOW FRACTIONATION; FLOW RATE; HYDRODYNAMICS; IONIC STRENGTH; LIGHT SCATTERING; MEMBRANE; MULTI ANGLE LASER LIGHT SCATTERING; PH; PRIORITY JOURNAL; SEPARATION TECHNIQUE; VALIDATION PROCESS;

ALGORITHMS; FRACTIONATION, FIELD FLOW; HYDROGEN-ION CONCENTRATION; LASERS; LIGHT; LINEAR MODELS; MOLECULAR CONFORMATION; NANOTUBES, CARBON; OSMOLAR CONCENTRATION; SCATTERING, RADIATION;

EID: 78449287424     PISSN: 00219673     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.chroma.2010.10.042     Document Type: Article

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