Switchable Adhesion of Hydrogels to Plant and Animal Tissues

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Abstract: The ability to “switch on” adhesion between a thin hydrogel and a biological tissue can be useful in biomedical applications such as surgery. One way to accomplish this is with an electric field, a phenomenon termed electroadhesion (EA). Here, it is shown that cationic gels can be adhered by EA to tissues across all of biology. This includes tissues from animals, including humans and other mammals; birds; fish; reptiles (e.g., lizards); amphibians (e.g., frogs), and invertebrates (e.g., shrimp, worms). Gels can also be adhered to soft tissues from plants, including fruit (e.g., plums) and vegetables (e.g; carrot). In all cases, EA is induced by a low electric field (DC, 10 V) applied for a short time (20 s). After the field is removed, the adhesion persists. The adhesion can also be reversed by applying the field with opposite polarity. In mammals, EA is strong for many tissues (e.g., arteries, muscles, and cornea), but not others (e.g., adipose, brain). Tissues with anisotropic structure show anisotropic adhesion strength by EA. The higher the concentration of anionic polymers in a tissue, the stronger its adhesion to cationic gels. This underscores that EA is mediated by the electrophoresis of chain segments across the gel‐tissue interface.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: Switchable Adhesion of Hydrogels to Plant and Animal Tissues ; day:07 ; month:12 ; year:2024 ; extent:12
Advanced science ; (07.12.2024) (gesamt 12)

Creator: Borden, Leah K.
Nader, Morine G.
Burni, Faraz A.
Grasso, Samantha M.
Orueta‐Ortega, Irene
Srivastava, Mahima
Montero‐Atienza, Paula
Erdi, Metecan
Wright, Sarah L.
Sarkar, Rajabrata
Sandler, Anthony D.
Raghavan, Srinivasa R.

DOI: 10.1002/advs.202411942

URN: urn:nbn:de:101:1-2412091405082.897337503607

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 15.08.2025, 7:23 AM CEST

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Borden, Leah K.
Nader, Morine G.
Burni, Faraz A.
Grasso, Samantha M.
Orueta‐Ortega, Irene
Srivastava, Mahima
Montero‐Atienza, Paula
Erdi, Metecan
Wright, Sarah L.
Sarkar, Rajabrata
Sandler, Anthony D.
Raghavan, Srinivasa R.

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Switchable Adhesion of Hydrogels to Plant and Animal Tissues

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