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Spontaneous charging affects the motion of sliding drops

Xiaomei Li, Pravash Bista, Amy Z. Stetten, Henning Bonart, Maximilian T. Schür, Steffen Hardt, Francisco Bodziony, Holger Marschall, Alexander Saal, Xu Deng, Rüdiger Berger, Stefan A. L. Weber, Hans‐Jürgen Butt

2022Nature Physics180 citationsDOIOpen Access PDF

Abstract

Abstract Water drops moving on surfaces are not only an everyday phenomenon seen on windows but also form an essential part of many industrial processes. Previous understanding is that drop motion is dictated by viscous dissipation and activated dynamics at the contact line. Here we demonstrate that these two effects cannot fully explain the complex paths of sliding or impacting drops. To accurately determine the forces experienced by moving drops, we imaged their trajectory when sliding down a tilted surface, and applied the relevant equations of motion. We found that drop motion on low-permittivity substrates is substantially influenced by electrostatic forces. Our findings confirm that electrostatics must be taken into consideration for the description of the motion of water, aqueous electrolytes and ethylene glycol on hydrophobic surfaces. Our results are relevant for improving the control of drop motion in many applications, including printing, microfluidics, water management and triboelectric nanogenerators.

Topics & Concepts

Drop (telecommunication)PhysicsTriboelectric effectMechanicsMicrofluidicsPermittivityTrajectoryClassical mechanicsDissipationMotion (physics)NanotechnologyMaterials scienceDielectricMechanical engineeringOptoelectronicsThermodynamicsEngineeringAstronomyQuantum mechanicsSurface Modification and SuperhydrophobicityAdvanced Sensor and Energy Harvesting MaterialsAdhesion, Friction, and Surface Interactions