1. A Microactuator Array Based on Ionic Electroactive Artificial Muscles for Cell Mechanical Stimulation
- Author
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Jing Gu, Zixing Zhou, Yang Xie, Xiaobin Zhu, Guoyou Huang, and Zuoqi Zhang
- Subjects
microactuator ,artificial muscle ,electroactive polymer ,electro-actuation ,biomechanics ,Technology - Abstract
Mechanical stimulation is prevalent within organisms, and appropriate regulation of such stimulation can significantly enhance cellular functions. Consequently, the in vitro construction and simulation of mechanical stimulation have emerged as a research hotspot in biomechanics. In recent years, a class of artificial muscles named electroactive polymers (EAPs), especially ionic EAPs, have shown promising applications in biomechanics. While several techniques utilizing ionic EAPs for cell mechanical stimulation have been reported, further research is needed to advance and enhance their practical applications. Here, we prepared a microactuator array based on ionic EAP artificial muscles for cell mechanical stimulation. As a preliminary effort, we created a 5 × 5 microactuator array on a supporting membrane by employing laser cutting. We evaluated the electro-actuation performance of the microactuators through experimental testing and numerical simulations, affirming the potential use of the microactuator array for cell mechanical stimulation. The devised approach could inspire innovative design concepts in the development of miniaturized intelligent electronic devices, not only in biomechanics and biomimetics but also in other related fields.
- Published
- 2024
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