English

Soft Electrothermal Meta-Actuator for Robust Multifunctional Control

Robotics 2025-05-29 v1

Abstract

Soft electrothermal actuators are of great interest in diverse application domains for their simplicity, compliance, and ease of control. However, the very nature of thermally induced mechanical actuation sets inherent operation constraints: unidirectional motion, environmental sensitivity, and slow response times limited by passive cooling. To overcome these constraints, we propose a meta-actuator architecture, which uses engineered heat transfer in thin films to achieve multifunctional operation. We demonstrate electrically selectable bidirectional motion with large deflection ( \geq 28% of actuator length at 0.75 W), suppressed thermal sensitivity to ambient temperature changes when compared to conventional actuators (>100× \times lower), and actively forced return to the rest state, which is 10 times faster than that with passive cooling. We further show that our meta-actuator approach enables extended ranges of motions for manipulating complex objects. Versatile soft gripper operations highlight the meta-actuator's potential for soft robotics and devices.

Keywords

Cite

@article{arxiv.2505.21992,
  title  = {Soft Electrothermal Meta-Actuator for Robust Multifunctional Control},
  author = {Hanseong Jo and Pavel Shafirin and Christopher Le and Caden Chan and Artur Davoyan},
  journal= {arXiv preprint arXiv:2505.21992},
  year   = {2025}
}

Comments

23 pages, 5 figures

R2 v1 2026-07-01T02:45:20.929Z