Along Han , Chao Liu , Qingyuan Wu, Ziyang Gong, Mengqi Liu, Bolong Xu , Xin Su
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引用次数: 0
Abstract
Hydrogels, as hydrophilic polymers with intricate 3D network structures, exhibit remarkable properties such as adhesion and moisture retention, promising broad applications in wound healing. However, the functionality of a single-component hydrogel system remains relatively simplistic, hindering the advancement towards the spatially and temporally controllable functionality of wound dressings. The incorporation of external physical field-responsive nanomaterials (EPFR-NMs) as composite components offers a viable pathway to modify hydrogels, and the strategies of integrating nanoparticles with hydrogels to create functional external physical field-responsive nanocomposite hydrogels (EPFR-NHs) have garnered significant interest among researchers. In this review, we comprehensively summarize the classification and acting mechanisms of EPFR-NMs, along with design strategies for their integration with hydrogels. Furthermore, we examine the detailed roles and mechanisms of EPFR-NHs in facilitating wound healing at various stages, providing direction and guiding principles for the design and clinical application of EPFR-NHs.
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