Home /Research /Self-Growing and Serpentine Locomotion of Liquid Metal Induced by Copper Ions
LOCOMOTION

Self-Growing and Serpentine Locomotion of Liquid Metal Induced by Copper Ions

Sen Chen, Xiaohu Yang, Yuntao Cui, Jing Liu

Year
2018
Citations
86

Abstract

). The dynamic process that liquid metal can automatically produce and move like tremendous slim snakes was revealed and the underlying mechanisms were clarified and interpreted. It was found that the self-growing serpentine locomotion of liquid metal is driven by the localized surface pressure difference related to the unbalanced surface tension. The present work offers new insight and forms in developing future autonomous soft systems and bionic multifunctional robots.

Keywords

Liquid metalMaterials scienceSurface tensionCopperRealization (probability)MetalNanotechnologyWork (physics)Process (computing)Core (optical fiber)

Related papers

Browse all LOCOMOTION papers