Effects of concave curvature on the formation and propagation of capillary wave induced by electrowetting-on-dielectric

Abstract: Capillary-wave propellers (CWPs) based on the phenomenon of electrowetting-on-dielectric (EWOD) have shown great potential for floating-object propulsion, heat-transfer enhancement, and fluid thermophysical property measurement. However, the small amplitude of the EWOD-induced capillary-wave limits the performance of the CWP in practical applications. Herein, a CWP with a concave curvature is proposed to enlarge the capillary-wave amplitude. The formation and propagation of the capillary wave are visualized by… Show more

“…Their results suggest that the inorganic salt composition in the liquid affects the propulsion speed of the microbots. Tian et al 42 proposed a curved EWOD device for amplifying the wave amplitude. They found that the wave amplitude could be increased by adopting a concave EWOD chip.…”

Effects of Liquid Viscosity on the Formation and Attenuation of Capillary Waves Induced by AC Electrowetting-on-Dielectric

“…Their results suggest that the inorganic salt composition in the liquid affects the propulsion speed of the microbots. Tian et al 42 proposed a curved EWOD device for amplifying the wave amplitude. They found that the wave amplitude could be increased by adopting a concave EWOD chip.…”

Effects of Liquid Viscosity on the Formation and Attenuation of Capillary Waves Induced by AC Electrowetting-on-Dielectric

Advances in triboelectric nanogenerator powered electrowetting-on-dielectric devices: Mechanism, structures, and applications

Instability and breakup of rayleigh-plateau jets with capillary wave induced by electrowetting-on-dielectric