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Venus Flytrap‐Inspired Data‐Center‐Free Fast‐Responsive Soft Robots Enabled by 2D Ni<sub>3</sub>(HITP)<sub>2</sub> MOF and Graphite

Shengshun Duan, Xiao Wei, Mingcen Weng, Fangzhi Zhao, Pinzhen Chen, Jianlong Hong, Shengxin Xiang, Qiongfeng Shi, Litao Sun, Guozhen Shen, Jun Wu

2024Advanced Materials24 citationsDOI

Abstract

Abstract The rapid and responsive capabilities of soft robots in perceiving, assessing, and reacting to environmental stimuli are highly valuable. However, many existing soft robots, designed to mimic humans and other higher animals, often rely on data centers for the modulation of mechanoelectrical transduction and electromechanical actuation. This reliance significantly increases system complexity and time delays. Herein, drawing inspiration from Venus flytraps, a soft robot employing a power modulation strategy is presented for active stimulus reaction, eliminating the need for a data center. This robot achieves mechanoelectrical transduction through Ni 3 (2,3,6,7,10,11‐hexaiminotriphenylene) 2 (Ni 3 (HITP) 2 ) metal–organic framework (MOF) with an ultralow time delay (256 ns) and electromechanical actuation via graphite. The Joule heating effect in graphite is effectively modulated by Ni 3 (HITP) 2 before and after the presence of pressure, thus enabling the stimulus reaction of soft robots. As demonstrated, three soft robots are created: low‐level edge tongue robots, Venus flytrap robots, and high‐level nerve‐center‐controlled dragonfly robots. This power modulation strategy inspires designs of edge soft robots and high‐level robots with a human‐like effective fusion of conditioned and unconditioned reflexes.

Topics & Concepts

RobotMaterials scienceComputer scienceNanotechnologyArtificial intelligenceAdvanced Sensor and Energy Harvesting MaterialsAdvanced Memory and Neural ComputingMicro and Nano Robotics
Venus Flytrap‐Inspired Data‐Center‐Free Fast‐Responsive Soft Robots Enabled by 2D Ni<sub>3</sub>(HITP)<sub>2</sub> MOF and Graphite | Litcius