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Light-induced thermoosmosis about conducting ellipsoidal nanoparticles
Touvia Miloh
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Corresponding author for this work
School of Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
5
Scopus citations
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Keyphrases
Light-induced
100%
Self-induced
100%
Soret
100%
Ellipsoidal Nanoparticles
100%
Surface Slip
100%
Polarizable
50%
Freely Suspended
50%
Electroosmotic Flow
50%
Flow around
50%
Flow-based
50%
Slippage
50%
Physical Problems
50%
Spherical Particles
50%
Metallic Nanoparticles
50%
Heat Conduction
50%
Recent Advancements
50%
Temperature Distribution
50%
Joule Heating
50%
Surface Temperature
50%
Liquid Phase
50%
Creep
50%
Laser Irradiation
50%
Non-spherical
50%
Orthotropic
50%
Rayleigh
50%
Stokes
50%
Heat Temperature
50%
Continuous-wave Laser
50%
Slip Velocity
50%
Conducting Liquid
50%
Ellipsoidal Harmonics
50%
Triaxial Ellipsoid
50%
Surface Temperature Gradient
50%
Electrostatic Approximation
50%
Engineering
Nanoparticle
100%
Electrostatics
50%
Spherical Particle
50%
Electroosmotic Flow
50%
Harmonics
50%
Metallic Nanoparticles
50%
Slippage
50%
Temperature Gradient
50%
Laser Irradiation
50%
Temperature Distribution
50%
Liquid Phase
50%
Induced Surface
50%
Slip Velocity
50%
Physical Problem
50%
Material Science
Nanoparticle
100%
Metal Nanoparticle
50%
Surface Type
50%