Shaping Liquid Droplets on an Active Air–Ferrofluid Interface

Abstract: An air−liquid interface is important in many biological and industrial applications, where the manipulation of liquids on the air−liquid interface can have a significant impact. However, current manipulation techniques on the interface are mostly limited to transportation and trapping. Here, we report a magnetic liquid shaping method that can squeeze, rotate, and shape nonmagnetic liquids on an air−ferrofluid interface with programmable deformation. We can control the aspect ratio of the ellipse and generate r… Show more

“…The findings indicate that the size of the droplets escalates with the augmentation of the magnetic field strength. Harischandra et al [104] first proposed the concept of shaping droplets at the air-liquid interface. Nonmagnetic liquids can be squeezed, rotated, and molded at an air-ferrofluid interface with controllable deformation.…”

Recent Advances in Magnetically Actuated Droplet Manipulation for Biomedical Applications

“…The findings indicate that the size of the droplets escalates with the augmentation of the magnetic field strength. Harischandra et al [104] first proposed the concept of shaping droplets at the air-liquid interface. Nonmagnetic liquids can be squeezed, rotated, and molded at an air-ferrofluid interface with controllable deformation.…”

Recent Advances in Magnetically Actuated Droplet Manipulation for Biomedical Applications

Learning to Control a Three-Dimensional Ferrofluidic Robot