适用于各种潮湿表面的强力胶粘剂。

Tough adhesives for diverse wet surfaces.

作者信息

Li J, Celiz A D, Yang J, Yang Q, Wamala I, Whyte W, Seo B R, Vasilyev N V, Vlassak J J, Suo Z, Mooney D J

机构信息

John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138, USA.

Wyss Institute for Biologically Inspired Engineering, Harvard University, Cambridge, MA 02138, USA.

出版信息

Science. 2017 Jul 28;357(6349):378-381. doi: 10.1126/science.aah6362.

DOI:10.1126/science.aah6362

PMID:28751604

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5905340/

Abstract

Adhesion to wet and dynamic surfaces, including biological tissues, is important in many fields but has proven to be extremely challenging. Existing adhesives are cytotoxic, adhere weakly to tissues, or cannot be used in wet environments. We report a bioinspired design for adhesives consisting of two layers: an adhesive surface and a dissipative matrix. The former adheres to the substrate by electrostatic interactions, covalent bonds, and physical interpenetration. The latter amplifies energy dissipation through hysteresis. The two layers synergistically lead to higher adhesion energies on wet surfaces as compared with those of existing adhesives. Adhesion occurs within minutes, independent of blood exposure and compatible with in vivo dynamic movements. This family of adhesives may be useful in many areas of application, including tissue adhesives, wound dressings, and tissue repair.

摘要

对包括生物组织在内的潮湿动态表面的粘附在许多领域都很重要，但事实证明极具挑战性。现有的粘合剂具有细胞毒性，对组织的粘附力弱，或者不能在潮湿环境中使用。我们报告了一种受生物启发的粘合剂设计，它由两层组成：粘性表面和耗散基质。前者通过静电相互作用、共价键和物理互穿作用粘附在基底上。后者通过滞后作用放大能量耗散。与现有粘合剂相比，这两层协同作用可在潮湿表面产生更高的粘附能。粘附在几分钟内即可发生，与血液接触无关，并且与体内动态运动兼容。这类粘合剂可能在许多应用领域有用，包括组织粘合剂、伤口敷料和组织修复。

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