Regulated Self-Folding in Multi-Layered Hydrogels Considered with an Interfacial Layeropen access
- Authors
- Lim, Jun Woo; Kim, Sang Jin; Jeong, Jimin; Shin, Sung Gyu; Woo, Chaewon; Jung, Woonggyu; Jeong, Jae Hyun
- Issue Date
- Jan-2024
- Publisher
- MDPI
- Keywords
- multi-layered hydrogel; interfacial layer; self-folding; soft hydrogel actuators
- Citation
- GELS, v.10, no.1
- Journal Title
- GELS
- Volume
- 10
- Number
- 1
- URI
- https://scholarworks.bwise.kr/ssu/handle/2018.sw.ssu/49184
- DOI
- 10.3390/gels10010048
- ISSN
- 2310-2861
2310-2861
- Abstract
- Multi-layered hydrogels consisting of bi- or tri-layers with different swelling ratios are designed to soft hydrogel actuators by self-folding. The successful use of multi-layered hydrogels in this application greatly relies on the precise design and fabrication of the curvature of self-folding. In general, however, the self-folding often results in an undesired mismatch with the expecting value. To address this issue, this study introduces an interfacial layer formed between each layered hydrogel, and this layer is evaluated to enhance the design and fabrication precision. By considering the interfacial layer, which forms through diffusion, as an additional layer in the multi-layered hydrogel, the degree of mismatch in the self-folding is significantly reduced. Experimental results show that as the thickness of the interfacial layer increases, the multi-layered hydrogel exhibits a 3.5-fold increase in its radius of curvature during the self-folding. In addition, the diffusion layer is crucial for creating robust systems by preventing the separation of layers in the muti-layered hydrogel during actuation, thereby ensuring the integrity of the system in operation. This new strategy for designing multi-layered hydrogels including an interfacial layer would greatly serve to fabricate precise and robust soft hydrogel actuators.
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