Electrophoretic Adhesion of Conductive Hydrogels
For the development of next‐generation wearable and implantable devices that connect the human body and machines, the adhesion of a conductive hydrogel is required. In this study, a conductive hydrogel is adhered using an electrophoretic approach through polyion complex formation at the interface of...
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| Published in: | Macromolecular rapid communications. Vol. 41; no. 12; pp. e2000169 - n/a |
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| Main Authors: | , , , , |
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| Abstract | For the development of next‐generation wearable and implantable devices that connect the human body and machines, the adhesion of a conductive hydrogel is required. In this study, a conductive hydrogel is adhered using an electrophoretic approach through polyion complex formation at the interface of the hydrogels. Cationic and anionic conductive hydrogels adhere to anionic and cationic hydrogels, respectively. Moreover, the cationic and anionic conductive hydrogels adhere strongly to each other and the adhered conductive hydrogels exhibit conductivity. De‐adhesion is possible by adding a salt and re‐adhesion is demonstrated under aqueous conditions. It is believed that this innovative adhesion strategy for conductive hydrogels will be a fundamental technology for the connecting “soft” people and “hard” machines.
Conductive hydrogels can be adhered strongly using an electrophoretic approach through polyion complex formation at the interface of the hydrogels. The adhesive process is reversible, and de‐adhesion is possible by adding a salt and re‐adhesion is demonstrated under aqueous conditions. |
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| AbstractList | For the development of next‐generation wearable and implantable devices that connect the human body and machines, the adhesion of a conductive hydrogel is required. In this study, a conductive hydrogel is adhered using an electrophoretic approach through polyion complex formation at the interface of the hydrogels. Cationic and anionic conductive hydrogels adhere to anionic and cationic hydrogels, respectively. Moreover, the cationic and anionic conductive hydrogels adhere strongly to each other and the adhered conductive hydrogels exhibit conductivity. De‐adhesion is possible by adding a salt and re‐adhesion is demonstrated under aqueous conditions. It is believed that this innovative adhesion strategy for conductive hydrogels will be a fundamental technology for the connecting “soft” people and “hard” machines. For the development of next‐generation wearable and implantable devices that connect the human body and machines, the adhesion of a conductive hydrogel is required. In this study, a conductive hydrogel is adhered using an electrophoretic approach through polyion complex formation at the interface of the hydrogels. Cationic and anionic conductive hydrogels adhere to anionic and cationic hydrogels, respectively. Moreover, the cationic and anionic conductive hydrogels adhere strongly to each other and the adhered conductive hydrogels exhibit conductivity. De‐adhesion is possible by adding a salt and re‐adhesion is demonstrated under aqueous conditions. It is believed that this innovative adhesion strategy for conductive hydrogels will be a fundamental technology for the connecting “soft” people and “hard” machines. Conductive hydrogels can be adhered strongly using an electrophoretic approach through polyion complex formation at the interface of the hydrogels. The adhesive process is reversible, and de‐adhesion is possible by adding a salt and re‐adhesion is demonstrated under aqueous conditions. |
| Author | Asoh, Taka‐Aki Shoji, Tatsuya Tsuboi, Yasuyuki Uyama, Hiroshi Nakamura, Megumi |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32400894$$D View this record in MEDLINE/PubMed |
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| Snippet | For the development of next‐generation wearable and implantable devices that connect the human body and machines, the adhesion of a conductive hydrogel is... For the development of next-generation wearable and implantable devices that connect the human body and machines, the adhesion of a conductive hydrogel is... |
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| SubjectTerms | Adhesion Cations Complex formation conductive hydrogels Conductivity Electric Conductivity Electrophoresis Humans Hydrogels Hydrogels - chemistry Molecular Structure polyion complexes |
| Title | Electrophoretic Adhesion of Conductive Hydrogels |
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