4.6 Review

Mussel-inspired hydrogels as tough, self-adhesive and conductive bioelectronics: a review

Journal

SOFT MATTER
Volume 17, Issue 39, Pages 8786-8804

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/d1sm00997d

Keywords

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Funding

  1. Major National Science and Technology Projects of the China National Petroleum Corporation [2016E-0206]

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This review discusses the use of multifunctional hydrogels to improve the performance of wearable sensors, including mechanical strength, adhesion, electrical conductivity, and antibacterial properties. Strategies for achieving durable hydrogels were examined, involving double network structures, nanocomposites, supramolecular block polymers, among others.
To overcome the wearable sensor's defects and achieve the goal of robust mechanical properties, long-term adhesion, sensitive electrical conductivity, the multifunctional hydrogels were inspired by various mussels on the base of catechol and its analogues. In this review, we review the strategies for improving the mechanical strength, adhesion, conductivity and antibacterial properties of mussel-inspired hydrogels as bioelectronics. Double network structures, nanocomposites, supramolecular block polymers and other strategies were utilized for achieving tough hydrogels to prevent tensile fractures under high deformation. Many mussel-inspired chemistries were incorporated for constructing skin-attachable hydrogel strain sensors and some strategies for controlling the oxidation of catechol were employed to achieve long-term adhesion. In addition, electrolytes, conductive fillers, conductive polymers and their relevant hydrophilic modifications were introduced for fabricating the conductive hydrogel bioelectronics to enhance the conductivity properties. Finally, the challenges and outlooks in this promising field are featured from the perspective of materials chemistry.

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