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Volumn 6, Issue 6, 2010, Pages 1352-1360
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Effects of temperature, acyl chain length, and flow-rate ratio on liposome formation and size in a microfluidic hydrodynamic focusing device
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Author keywords
[No Author keywords available]
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Indexed keywords
AGGREGATION RATE;
BI-LAYER;
CHANGING TEMPERATURE;
DIFFUSION COEFFICIENTS;
EFFECT OF TEMPERATURE;
EFFECTS OF TEMPERATURE;
ELASTICITY MODULI;
FLUID STREAMS;
HYDRODYNAMIC FOCUSING;
LINE TENSION;
LIPID MIXTURES;
LIPOSOME FORMATION;
LIQUID CRYSTALLINE PHASE TRANSITION;
MEMBRANE BENDING;
MEMBRANE COMPOSITION;
MICRO DROPLETS;
MICRO-BUBBLE;
MICROFLUIDIC METHOD;
MICROFLUIDIC MIXING;
MONODISPERSE;
NON EQUILIBRIUM;
PHASE TRANSITION TEMPERATURES;
PHOSPHOLIPID BILAYER;
RATE RATIOS;
SIZE RANGES;
SPHERICAL LIPOSOMES;
TEMPERATURE DEPENDENCE;
TRANSITION TEMPERATURE;
AGGLOMERATION;
CHAIN LENGTH;
ELASTIC MODULI;
ELASTICITY;
FLUID DYNAMICS;
HYDRODYNAMICS;
HYDROPHOBICITY;
LIPID BILAYERS;
LIPOSOMES;
MEMBRANES;
MICROFLUIDICS;
ORGANIC POLYMERS;
PHASE TRANSITIONS;
PHOSPHOLIPIDS;
POLYDISPERSITY;
VISCOSITY;
TEMPERATURE;
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EID: 79951664047
PISSN: 1744683X
EISSN: 17446848
Source Type: Journal
DOI: 10.1039/b923299k Document Type: Article |
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Times cited : (138)
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References (24)
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