Highly stretchable, compressible, adhesive hydrogels with double network

In this work, a double network bovine serum albumin-polyacrylamide (BSA-PAM) adhesive hydrogel was fabricated, in which combination of physical interactions including hydrogen bonds and chain entanglements, and chemical covalent photo-crosslinking. The BSA-PAM hydrogel exhibited excellent mechanical...

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Veröffentlicht in:	Journal of polymer research 2021-11, Vol.28 (11), Article 417
Hauptverfasser:	Guo, Cuiping, Zeng, Zhiwen, Yu, Shan, Zhou, Xiaoyan, Liu, Qunfeng, Pei, Dating, Lu, Daohuan, Geng, Zhijie
Format:	Artikel
Sprache:	eng
Schlagworte:	Adhesives Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Compressibility Crosslinking Elongation Fatigue strength Hydrogels Hydrogen bonds Industrial Chemistry/Chemical Engineering Original Paper Pigskins Polyacrylamide Polymer Sciences Serum albumin Substrates Tensile properties
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creator	Guo, Cuiping Zeng, Zhiwen Yu, Shan Zhou, Xiaoyan Liu, Qunfeng Pei, Dating Lu, Daohuan Geng, Zhijie
description	In this work, a double network bovine serum albumin-polyacrylamide (BSA-PAM) adhesive hydrogel was fabricated, in which combination of physical interactions including hydrogen bonds and chain entanglements, and chemical covalent photo-crosslinking. The BSA-PAM hydrogel exhibited excellent mechanical and adhesive properties. The composite hydrogel not only demonstrated excellent tensile properties (maximum force elongation 1552%~2037%), but also displayed extremely high fatigue resistance even when subjected to compress strains of up to 85%. More importantly, the BSA-PAM hydrogel showed excellent adhesiveness to various substrates (90 kPa~150 kPa for glass and 9.74 kPa~35.09 kPa for pigskin). This work provided a facile way of fabricating tough, stretchable and adhesive BSA-PAM hydrogels.
doi_str_mv	10.1007/s10965-021-02765-x
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subjects	Adhesives Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Compressibility Crosslinking Elongation Fatigue strength Hydrogels Hydrogen bonds Industrial Chemistry/Chemical Engineering Original Paper Pigskins Polyacrylamide Polymer Sciences Serum albumin Substrates Tensile properties
title	Highly stretchable, compressible, adhesive hydrogels with double network
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