Min Jo Park scite author profile

Falling leaves flutter from side to side due to passive and intrinsic fluid-body coupling. Exploiting the dynamics of passive fluttering could lead to fresh perspectives for the locomotion and manipulation of thin, planar objects in fluid environments. Here, we show that the time-varying density distribution within a thin, planar body effectively elicits minimal momentum control to reorient the principal flutter axis and propel itself via directional fluttery motions. We validated the principle by developing a swimming leaf with a soft skin that can modulate local buoyancy distributions for active flutter dynamics. To show generality and field applicability, we demonstrated underwater maneuvering and manipulation of adhesive and oil-skimming sheets for environmental remediation. These findings could inspire future intelligent underwater robots and manipulation schemes.

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Deployable Soft Origami Modular Robotic Arm With Variable Stiffness Using Facet Buckling

Park

Kim

et al. 2023

IEEE Robot. Autom. Lett.

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Synthesis and catalytic application of tantalum and silica pillared porous materials from layered silicate ilerite

Park

Jung

et al. 2005

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Min Jo Park

DME synthesis from synthesis gas on the admixed catalysts of Cu/ZnO/Al2O3 and ZSM-5

Influence of solid acid catalyst on DME production directly from synthesis gas over the admixed catalyst of Cu/ZnO/Al2O3 and various SAPO catalysts

Underwater maneuvering of robotic sheets through buoyancy-mediated active flutter

Deployable Soft Origami Modular Robotic Arm With Variable Stiffness Using Facet Buckling

Synthesis and catalytic application of tantalum and silica pillared porous materials from layered silicate ilerite

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