Litcius/Paper detail

Contact Time of a Bouncing Nanodroplet

Fang-Fang Xie, Shu-Hang Lv, Yan-Ru Yang, Xiaodong Wang

2020The Journal of Physical Chemistry Letters92 citationsDOI

Abstract

We study the bouncing dynamics of nanodroplets on superhydrophobic surfaces. We show that there are three velocity regimes with different scaling laws of the contact time, τ. Although τ remains constant over a wide velocity range, as seen for macroscale bouncing, we demonstrate that viscosity plays an essential role in nanodroplet bouncing even for low-viscosity fluids. We propose a new scaling τ ∼ (ρμR04/γ2)1/3 = (R0/v0)We2/3Re–1/3 to characterize the viscosity effect, which agrees well with the simulated results for water and argon nanodroplets with various radii and hydrophobicities. We also find pancake bouncing of nanodroplets, which is responsible for an abruptly reduced τ in a high-velocity regime.

Topics & Concepts

ViscosityScalingRange (aeronautics)Scaling lawMechanicsArgonConstant (computer programming)Chemical physicsMaterials scienceNanotechnologyPhysicsClassical mechanicsChemistryThermodynamicsComposite materialAtomic physicsGeometryComputer scienceMathematicsProgramming languageSurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferLattice Boltzmann Simulation Studies