Role of Chemistry in Nature-Inspired Skin Adhesives

纳米技术 胶粘剂 生物相容性 透皮 粘附 计算机科学 材料科学 生化工程 工程类 医学 复合材料 药理学 冶金 图层(电子)
作者
Xiao Yang,Xiaonan Liu,Yeung Yeung Chau,Xuezhi Qin,Hongliang Zhu,Liang Peng,K. Arnold Chan,Zuankai Wang
出处
期刊:Chemical Science [Royal Society of Chemistry]
卷期号:16 (24): 10665-10690
标识
DOI:10.1039/d5sc01777g
摘要

As an essential component of wearable technology, skin adhesion plays a critical role in a wide range of wearable device applications. To maintain effectiveness and safety in daily use, skin adhesives must exhibit strong wet adhesion and high biocompatibility, particularly for devices that remain in contact with the skin for extended periods under humid and dynamic conditions. A comprehensive understanding of skin adhesion's chemical mechanisms is fundamental to advancing this technology. Nature offers valuable inspiration, as numerous organisms have evolved sophisticated chemical and physical adhesion strategies that enable strong and reversible bonding. This review begins by exploring the historical development of nature-inspired skin adhesives, followed by a detailed examination of their performance in moist environments. Particular emphasis is placed on the covalent and non-covalent interactions between adhesive materials and skin surface functional groups, considering both biocompatibility and wet adhesion properties. Additionally, we discuss strategies to mitigate hydration-related challenges alongside an overview of characterization techniques, including mechanical, chemical, and biological testing methods. The classification of nature-inspired skin adhesives into chemical and physical approaches is presented, highlighting their applications in thermal management, energy harvesting, wound care, and transdermal drug delivery. Finally, we identify current limitations and propose design strategies to guide the development of next-generation skin adhesives, providing a clear trajectory for future research.
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