Intrinsically reversible superglues via shape adaptation inspired by snail epiphragm

Authors
Cho, HyesungWu, GaoxiangJolly, Jason ChristopherFortoul, NicoleHe, ZhenpingGao, YuchongJagota, AnandYang, Shu
Issue Date
2019-07
Publisher
National Academy of Sciences
Citation
Proceedings of the National Academy of Sciences of the United States of America, v.116, no.28, pp.13774 - 13779
Abstract
Adhesives are ubiquitous in daily life and industrial applications. They usually fall into one of two classes: strong but irreversible (e.g., superglues) or reversible/reusable but weak (e.g., pressure-sensitive adhesives and biological and biomimetic surfaces). Achieving both superstrong adhesion and reversibility has been challenging. This task is particularly difficult for hydrogels that, because their major constituent is liquid water, typically do not adhere strongly to any material. Here, we report a snail epiphragm-inspired adhesion mechanism where a polymer gel system demonstrates superglue-like adhesion strength (up to 892 N.cm(-2)) that is also reversible. It is applicable to both flat and rough target surfaces. In its hydrated state, the softened gel conformally adapts to the target surface by low-energy deformation, which is locked upon drying as the elastic modulus is raised from hundreds of kilopascals to similar to 2.3 GPa, analogous to the action of the epiphragm of snails. We show that in this system adhesion strength is based on the material's intrinsic, especially near-surface, properties and not on any near-surface structure, providing reversibility and ease of scaling up for practical applications.
Keywords
DRY ADHESIVES; ENHANCED ADHESION; HYDROGELS; SURFACES; ARRAYS; polymer gels; superstrong adhesion; shape adaptation; intrinsically reversible; snail epiphragm
ISSN
0027-8424
URI
https://pubs.kist.re.kr/handle/201004/119859
DOI
10.1073/pnas.1818534116
Appears in Collections:
KIST Article > 2019
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