Multifunctional Silk Fibroin Hydrogels with Strong Adhesion for Tissue Sealing and Wearable Electronic Sensors.

IF 8.2 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Materials & Interfaces Pub Date : 2025-03-19 Epub Date: 2025-03-09 DOI:10.1021/acsami.4c18548

Xinling Hu, Jitian Chen, Zijian Yan, Du Nie, Fuwang Guan, Chenyang Shi, Naibo Lin

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引用次数: 0

Abstract

Multifunctional hydrogels with excellent adhesion, biodegradability, and conductivity are essential for overcoming the obstacles of postoperative secondary injury, flexible sensing instability, and so on. Herein, we develop a multifunctional silk fibroin (SF) hydrogel modified with poly(acrylic acid). Owing to the stable chemical cross-linking network and the abundant carboxylic acid groups of the SF network, the SF hydrogel exhibits a high tensile strength of 74.34 kPa due to sufficient cohesion and interfacial interactions. Additionally, the tensile strain reaches a maximum of 414.6%, the compressive strength is 0.9 MPa, and the shear adhesive strength for pig skin tissues is as high as 64 kPa. Compared with most hydrogels, our multifunctional SF hydrogel with a low swelling ratio provides excellent adhesion, biodegradation, and conductivity, which shows advantages in terms of invasive tissue sealing. The use of self-adhesive SF hydrogels as conductive hydrogels in flexible sensors also benefits the collection of physiological electricity and human motion signals in the field of wearable and implantable electronic devices.

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用于组织密封和可穿戴电子传感器的强附着力多功能丝素水凝胶。

具有良好粘附性、可生物降解性和导电性的多功能水凝胶对于克服术后继发性损伤、柔性传感不稳定性等障碍至关重要。本文研制了一种聚丙烯酸改性的多功能丝素（SF）水凝胶。由于SF网络具有稳定的化学交联网络和丰富的羧酸基团，由于充分的内聚和界面相互作用，SF水凝胶具有74.34 kPa的高抗拉强度。拉伸应变最大可达414.6%，抗压强度为0.9 MPa，猪皮组织抗剪粘接强度高达64 kPa。与大多数水凝胶相比，我们的多功能SF水凝胶具有较低的溶胀率，具有良好的粘附性、生物降解性和导电性，在侵入性组织密封方面具有优势。在柔性传感器中使用自粘性SF水凝胶作为导电水凝胶，也有利于可穿戴和植入式电子设备领域的生理电和人体运动信号的收集。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Materials & Interfaces 工程技术-材料科学：综合

CiteScore

16.00

自引率

6.30%

发文量

4978

审稿时长

1.8 months

期刊介绍： ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.