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Microfluidic Flows and Confinement of Wormlike Micelles
Simon J. Haward,
Amy Q. Shen
Houston Methodist
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
2
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Scopus citations
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Keyphrases
Microfluidic Flow
100%
Wormlike Micelles
100%
Wormlike Micelle Solution
100%
Flow Effect
66%
Microfluidics
66%
Microfluidic Device
66%
Biomedical Applications
33%
Detergent
33%
Flow Field
33%
Drug Delivery
33%
Flow Condition
33%
Nanoporous
33%
Surfactant
33%
Shear Flow
33%
Shear Band
33%
Micellar Structure
33%
Versatile Platform
33%
Hydrodynamic Force
33%
Complex Geometry
33%
Nanostructured Materials
33%
Inkjet Printing
33%
Spatial Confinement
33%
Consumer Products
33%
Flow Type
33%
Confined Geometry
33%
Flow Phenomena
33%
Characteristic Length Scale
33%
Enhanced Oil Recovery
33%
Complex Flow Field
33%
Elastic Instability
33%
Microstructural Rearrangement
33%
Industrial Fluids
33%
Elongational Viscosity
33%
Wormlike Micellar Solution
33%
Environmental Sensing
33%
Shear Deformation
33%
Stagnation Point
33%
Mixed Flow
33%
Turbulent Drag Reduction
33%
Confinement Force
33%
Steady Rheology
33%
Extensional Deformation
33%
Engineering
Flow Distribution
100%
Microfluidic Device
100%
Biomedical Application
50%
Multiphase Flow
50%
Nanomaterial
50%
Drug Delivery
50%
Shear Flow
50%
Flow Condition
50%
Bioinstrumentation
50%
Microscale
50%
Fluid Viscosity
50%
Potential Application
50%
Length Scale
50%
Surfactant
50%
Drag Reduction
50%
Hydrodynamic Force
50%
Inkjet Printing
50%
Confined Geometry
50%
Rheology
50%
Characteristic Length
50%
Enhanced Oil Recovery
50%
Consumer Product
50%
Shear Banding
50%
Flow Phenomenon
50%
Micellar Solution
50%
Stagnation Point
50%
Chemical Engineering
Surfactant
100%
Turbulent Drag Reduction
100%
Nanomaterial
100%
Bioinstrumentation
100%
Material Science
Micelle
100%
Nanostructured Material
16%
Surface Active Agent
16%
Hydrodynamics
16%
Shear Flow
16%
Cosmetics
16%
Rheology
16%
Biosensor
16%