Recent Advances on Designs and Applications of Hydrogel Adhesives

In virtue of extracellular features, hydrogels have been used in various areas such as tissue repair, artificial skins, and biological electronics, etc. Intact contact of tough hydrogels to targeted surfaces is usually required to avoid blood or body fluids leakage or inaccurate signals of sensors....

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Published inAdvanced materials interfaces Vol. 9; no. 2
Main Authors Liu, Xiaowei, Yu, Haojie, Wang, Li, Huang, Zhikun, Haq, Fazal, Teng, Lisong, Jin, Meijin, Ding, Binbin
Format Journal Article
LanguageEnglish
Published Weinheim John Wiley & Sons, Inc 01.01.2022
Subjects
Adhesives
applications of hydrogel adhesives
bio‐inspired hydrogel adhesives
Body fluids
Chemical bonds
Chemical properties
Cleavage
Deformation effects
Fracture toughness
Functional groups
hydrogel adhesives for tissue repair
hydrogel adhesives for wound closure
Hydrogels
Repair
Sensors
Substrates
Tactics
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Abstract In virtue of extracellular features, hydrogels have been used in various areas such as tissue repair, artificial skins, and biological electronics, etc. Intact contact of tough hydrogels to targeted surfaces is usually required to avoid blood or body fluids leakage or inaccurate signals of sensors. The collaboration of high interactive energy between interfaces and high fracture toughness of the constituent hydrogels can effectively prevent relatively macroscopic motions of adhesives from substrates under deformation. Nevertheless, variations in surface microenvironment like moisture, roughness, and functional groups can lead to the scission of bonds between bulk hydrogel and surfaces. Accordingly, to prevent detachment of adhesives, specific tactics should be utilized to reach a targeted surface based on substrates’ physical and chemical properties. This review concentrates on various hydrogel adhesives in the near‐decade, from design strategies, including physical interactions, chemical bonds, and bio‐inspired ways, to eventual applications, like wound closure, sensors, soft robots, and tissue repair. Meanwhile, it is anticipated that these approaches could spur sparks for fabricating appropriate tough adhesives under different circumstances. The state‐of‐art hydrogel adhesives spanning from design principles, including physical and chemical interactions and bio‐inspired strategies to eventual applications in soft robots, tissue repair, and wound closure and sensors are summarized.
AbstractList In virtue of extracellular features, hydrogels have been used in various areas such as tissue repair, artificial skins, and biological electronics, etc. Intact contact of tough hydrogels to targeted surfaces is usually required to avoid blood or body fluids leakage or inaccurate signals of sensors. The collaboration of high interactive energy between interfaces and high fracture toughness of the constituent hydrogels can effectively prevent relatively macroscopic motions of adhesives from substrates under deformation. Nevertheless, variations in surface microenvironment like moisture, roughness, and functional groups can lead to the scission of bonds between bulk hydrogel and surfaces. Accordingly, to prevent detachment of adhesives, specific tactics should be utilized to reach a targeted surface based on substrates’ physical and chemical properties. This review concentrates on various hydrogel adhesives in the near‐decade, from design strategies, including physical interactions, chemical bonds, and bio‐inspired ways, to eventual applications, like wound closure, sensors, soft robots, and tissue repair. Meanwhile, it is anticipated that these approaches could spur sparks for fabricating appropriate tough adhesives under different circumstances.
In virtue of extracellular features, hydrogels have been used in various areas such as tissue repair, artificial skins, and biological electronics, etc. Intact contact of tough hydrogels to targeted surfaces is usually required to avoid blood or body fluids leakage or inaccurate signals of sensors. The collaboration of high interactive energy between interfaces and high fracture toughness of the constituent hydrogels can effectively prevent relatively macroscopic motions of adhesives from substrates under deformation. Nevertheless, variations in surface microenvironment like moisture, roughness, and functional groups can lead to the scission of bonds between bulk hydrogel and surfaces. Accordingly, to prevent detachment of adhesives, specific tactics should be utilized to reach a targeted surface based on substrates’ physical and chemical properties. This review concentrates on various hydrogel adhesives in the near‐decade, from design strategies, including physical interactions, chemical bonds, and bio‐inspired ways, to eventual applications, like wound closure, sensors, soft robots, and tissue repair. Meanwhile, it is anticipated that these approaches could spur sparks for fabricating appropriate tough adhesives under different circumstances. The state‐of‐art hydrogel adhesives spanning from design principles, including physical and chemical interactions and bio‐inspired strategies to eventual applications in soft robots, tissue repair, and wound closure and sensors are summarized.
Author Liu, Xiaowei
Yu, Haojie
Jin, Meijin
Wang, Li
Teng, Lisong
Ding, Binbin
Huang, Zhikun
Haq, Fazal
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  givenname: Binbin
  surname: Ding
  fullname: Ding, Binbin
  organization: Ruian Economic Development Zone
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Snippet In virtue of extracellular features, hydrogels have been used in various areas such as tissue repair, artificial skins, and biological electronics, etc. Intact...
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SubjectTerms Adhesives
applications of hydrogel adhesives
bio‐inspired hydrogel adhesives
Body fluids
Chemical bonds
Chemical properties
Cleavage
Deformation effects
Fracture toughness
Functional groups
hydrogel adhesives for tissue repair
hydrogel adhesives for wound closure
Hydrogels
Repair
Sensors
Substrates
Tactics
Title Recent Advances on Designs and Applications of Hydrogel Adhesives
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fadmi.202101038
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Volume 9
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