The unique liquid nature and strong magnetic response ability enable ferrofluid droplets to split and self-assemble into reconfigurable three-dimensional structures. Although the manipulation of a ferrofluid droplet in a static or quasi-static state has been well studied, the splitting and self-assembly of ferrofluids in a dynamic state remain unexplored. Here, we report the impingement-assisted self-assembly of ferrofluids on superhydrophobic surfaces, whereby the required magnetic field is greatly reduced. In particular, the coupling between the magnetic field strength and Weber number endows a precise regulation of the ferrofluid post-impact dynamics, which facilitates the optimization of the self-assembly behavior. Finally, we demonstrate that the impingement-assisted self-assembly of ferrofluids can be generalized on various surfaces with different wettability. The fundamental understanding and the ability to self-assembly during droplet impingement can provide important insight into the dynamics of ferrofluid droplets as well as the applicability in multifunctional analytical and fluidic devices.
CITATION STYLE
Wang, Z., Tao, R., Wu, J., Li, B., & Hao, C. (2021). Impingement-assisted self-assembly of ferrofluid droplets under magnetic field. Applied Physics Letters, 119(4). https://doi.org/10.1063/5.0059420
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