Chung-Ang University Researchers Demonstrate Paper Electrode-Based Crawling Soft Robots
The robots incorporated with paper electrodes and liquid crystal elastomer bilayer achieve asymmetric bending
However, it is a complicated task owing to the difficulty in generating asymmetric motions using isotropic thermal distributions, necessitating simple temperature gradient patterning and bilayer fabrication technologies.
Addressing these challenges, a team of researchers from the Department of Chemical Engineering at Chung-Ang University, led by Professor
With this vision in mind, the researchers chose cellulose-based paper—a common and eco-friendly material—as the substrate for the soft robots. Furthermore, instead of complex circuit designs, they turned to printing-based electrode patterning technology to dramatically simplify the fabrication process.
"Cellulose-based paper substrates provide distinct advantages due to their porous structure, which enables facile electrode deposition via solution-based processes and offers high mechanical deformability," remarks
In this study, the team deposited Cu electrodes asymmetrically on paper substrates by changing electrode widths. This variation caused electrical resistance gradients, producing significant temperature gradients across the substrate. This process finally resulted in energy-efficient soft robots capable of directional crawling at a low actuation voltage value via paper substrate integration with LCEs in a bilayer architecture.
"In this way, we successfully achieved asymmetric bending motion, which is a difficult feat for conventional soft robots. By precisely controlling the temperature gradient on the paper-based electrode, we were able to induce differential bending, which mimics the natural crawling motion of a caterpillar. This novel mechanism enables directional and controlled movement for soft robots," points out
The lightweight and thin crawling robot presented in this work could be used for environmental monitoring or performing special tasks in environments that are difficult for humans to reach, whether due to physical constraints or safety concerns.
Overall, the simplicity and cost-effectiveness of the electrode patterning process, in combination with the abundance and eco-friendly nature of paper-based actuators, is a promising approach for the scalable and sustainable fabrication of real-life soft robots, paving the way for the widespread integration of soft robots into our daily lives.
Reference
Title of original paper: Crawling Soft Robotic Locomotion via Asymmetric Temperature Distribution on Paper-Based Electrodes
Journal: Advanced Functional Materials
DOI: 10.1002/adfm.202512328
About Chung-Ang University
Website: https://neweng.cau.ac.kr/index.do
Contact:
02-820-6614
[email protected]
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SOURCE Chung-Ang University
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