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Simulation of nano elastic polymer chain displacement under pressure gradient/electroosmotic flow with the target of less dispersion of transition
Ramin Zakeri,
Eon Soo Lee
Mechanical and Industrial Engr
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Simulation of nano elastic polymer chain displacement under pressure gradient/electroosmotic flow with the target of less dispersion of transition'. Together they form a unique fingerprint.
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Keyphrases
Polymer Chain
100%
Overpressure
100%
Pressure Gradient
100%
Electroosmotic Flow
100%
Elastic Polymers
100%
Electroosmotic Forces
64%
Spring Coefficient
28%
Nanochannel
14%
Dissipative Particle Dynamics
14%
Chain Transfer
14%
Gradient Mode
14%
Free Motion
14%
Electric Field (E-field)
7%
Analytical Results
7%
Zeta Potential
7%
Nanofluid
7%
Chain Movement
7%
Two-mode
7%
High Dispersion
7%
Low Dispersion
7%
Behavior Study
7%
End Pressure
7%
Restricted Motion
7%
Constant Force
7%
Pressure Gradient Force
7%
Non-scattering
7%
Forced Mode
7%
Engineering
Polymer Chain
100%
Pressure Gradient
100%
Electroosmotic Flow
100%
Particle Dynamic
14%
Free Motion
14%
Chain Transfer
14%
Electric Field
7%
Zeta Potential
7%
Assuming
7%
Nanofluid
7%
Analytical Result
7%
Dynamic Method
7%
Material Science
Dissipative Particle Dynamics
100%