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Volumn 394, Issue 1, 2009, Pages 293-302
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Characterization of electrokinetic mobility of microparticles in order to improve dielectrophoretic concentration
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Author keywords
PIV; Dielectrophoresis; Electrokinetic; Electroosmosis; Microchannel; Microfluidics
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Indexed keywords
APPLIED ELECTRIC FIELDS;
BIO-PARTICLES;
CONCENTRATION OF;
DC ELECTRIC FIELDS;
DIELECTROPHORESIS;
DIELECTROPHORETIC;
DIELECTROPHORETIC SEPARATIONS;
DIELECTROPHORETIC TRAPPING;
DIRECT-CURRENTS;
ELECTRO-OSMOTIC FLOWS;
ELECTROKINETIC;
ELECTROKINETIC FLOWS;
ELECTROKINETIC FORCES;
ELECTROKINETIC TRANSPORTS;
GLASS SURFACES;
INSULATING STRUCTURES;
INSULATOR-BASED DIELECTROPHORESIS;
MATHEMATICAL MODELING;
MICRO-PARTICLE IMAGE VELOCIMETRY;
MICROCHANNEL;
MICROPARTICLES;
MODELING RESULTS;
MULTIPHYSICS SOFTWARES;
OPERATING CONDITIONS;
OPTIMAL CONDITIONS;
OPTIMAL OPERATING CONDITIONS;
PARTICLE CONCENTRATIONS;
PH VALUES;
PIV MEASUREMENTS;
POLYSTYRENE PARTICLES;
VOLTAGE REQUIREMENTS;
BIOLOGICAL MATERIALS;
COMPUTER SIMULATION;
DIELECTRIC DEVICES;
ELECTRIC FIELD EFFECTS;
ELECTROMAGNETIC FIELDS;
ELECTROOSMOSIS;
ELECTROPHORESIS;
GLASS;
INSULATION;
MATHEMATICAL MODELS;
MICROCHANNELS;
MODEL STRUCTURES;
POLYMER BLENDS;
POLYSTYRENES;
ZETA POTENTIAL;
ELECTRODYNAMICS;
POLYSTYRENE DERIVATIVE;
ARTICLE;
CHEMISTRY;
ELECTRIC CONDUCTIVITY;
ELECTROCHEMISTRY;
ELECTROMAGNETIC FIELD;
ELECTROPHORESIS;
KINETICS;
METHODOLOGY;
PH;
ELECTRIC CONDUCTIVITY;
ELECTROCHEMISTRY;
ELECTROMAGNETIC FIELDS;
ELECTROPHORESIS;
HYDROGEN-ION CONCENTRATION;
KINETICS;
POLYSTYRENES;
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EID: 65049090551
PISSN: 16182642
EISSN: 16182650
Source Type: Journal
DOI: 10.1007/s00216-009-2626-y Document Type: Article |
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Times cited : (83)
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References (27)
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