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Extensional rheology of DNA suspensions in microfluidic devices
Gabriel Juarez
, Paulo E. Arratia
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peer-review
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Keyphrases
DNA Molecule
100%
Microfluidic Device
100%
Extensional Rheology
100%
Extensional Viscosity
75%
Strain Rate
50%
Semi-dilute
50%
Newtonian Liquid
50%
Direct Visualization
25%
High Molecular Weight
25%
Viscous Fluid
25%
Fluorescently Labeled
25%
Individualism
25%
Exponential Decay
25%
Flexible Polymer
25%
High-speed Imaging
25%
Single-molecule Experiments
25%
Viscoelastic Behavior
25%
Bead-on-string
25%
Labeled DNA
25%
Drop Breakup
25%
Bulk Flow
25%
Viscoelastic Fluid
25%
Exponential Decay Rate
25%
Extensional Flow
25%
Molecular Stretch
25%
Semi-active Suspension
25%
Extension Strain
25%
Filament Thinning
25%
Cross-slot Microchannel
25%
Stretch Length
25%
Engineering
Rheology
100%
Molecular Weight
100%
Molecular Mass
100%
Microfluidic Device
100%
Fluid Viscosity
75%
Exponential Decay
50%
Newtonian Liquid
50%
Microchannel
25%
Strain Rate
25%
Initial Condition
25%
Rates of Strain
25%
Bulk Flow
25%
Extensional Flow
25%
Physics
Molecular Weight
100%
Microfluidic Device
100%
Rheology
100%
Strain Rate
50%
Viscous Fluid
25%
Material Science
Rheology
100%
Strain Rate
100%
Newtonian Liquids
100%
Viscoelastic Behavior
50%