Wall effects in continuous microfluidic magneto-affinity cell separation

Biotechnology and Bioengineering

Volumn 106, Issue 1, 2010, Pages 68-75

  Wu, Liqun ^a   Zhang, Yong ^a   Palaniapan, Moorthi ^a   Roy, Partha ^a  

^a NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

Author keywords

Cell separation; Magneto affinity; Microfluidic; Wall effect

Indexed keywords

ADDITIONAL EQUATIONS; CELL ROLLING; CELL SEPARATION; CELL SEPARATORS; DIMENSIONLESS PARAMETERS; EXPERIMENTAL STUDIES; EXTERNAL MAGNETIC FIELD; FLUID PHASIS; FLUID SHEAR; FOLIC ACIDS; HIGH SPECIFICITY; HUMAN COLON; MICROCHANNEL WALLS; MICROFLUIDIC FLOW; MICROSCALE FLOWS; NANOBEADS; NEAR-WALL; QUANTITATIVE DESCRIPTION; RED BLOOD CELL; ROLLING VELOCITY; TRANSIENT CONVECTION; WALL EFFECTS; WALL SURFACES;

BLOOD; CELL CULTURE; COMPLEXATION; MAGNETIC FIELD EFFECTS; MAGNETOS; MICROCHANNELS; MICROFLUIDICS; ORGANIC ACIDS; SIZE SEPARATION;

CELLS;

FOLIC ACID;

ARTICLE; CELL FUNCTION; CELL ROLLING; CELL SEPARATION; CELL STRAIN HT29; CELL TRANSPORT; CELL WALL; CONTINUOUS MICROFLUIDIC MAGNETO AFFINITY CELL SEPARATION; CONTROLLED STUDY; ERYTHROCYTE; FLUID FLOW; HUMAN; HUMAN CELL; HYDRODYNAMICS; MAGNETIC FIELD; MICROFLUIDICS; PROCESS OPTIMIZATION; SHEAR FLOW; THEORETICAL MODEL; THERMODYNAMICS; VELOCITY;

CELL LINE, TUMOR; ERYTHROCYTES; FOLIC ACID; HUMANS; IMMUNOMAGNETIC SEPARATION; MICROFLUIDICS; MICROSPHERES; MODELS, THEORETICAL;

EID: 77951537289     PISSN: 00063592     EISSN: 10970290     Source Type: Journal    
DOI: 10.1002/bit.22665     Document Type: Article

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