Department of Organic Materials Engineering, Chungnam National University, Daejeon, South Korea.
ACS Appl Mater Interfaces. 2021 Apr 21;13(15):18324-18337. doi: 10.1021/acsami.1c02141. Epub 2021 Apr 11.
Recently, many studies have been reported on functional adhesives that are applicable in wet conditions as well as in air conditions. In this study, a novel polymer hydrogel that mimics the mussel foot proteins (Mfps) was designed as an adhesive that can adhere strongly to various substrates in wet conditions. Polyallylamine-hydrocaffeic acid (PAA-CA) conjugates were synthesized to introduce the catechol moiety into the PAA backbone. The PAA-CA hydrogels were simply prepared by controlling the pH to enable the formation of a dynamic imine bond via the Schiff base reaction without any additional cross-linking agents. Owing to its residual amino groups, the PAA-CA hydrogel showed improved adhesive strength in wet conditions, which was found to be ∼4.7 times higher than in dry conditions. In addition, dual-cross-linked PAA-CA hydrogels were prepared by the addition of laponite (LP). The synergistic effect of the dynamic imine bonds and ionic bonds of the PAA-CA/LP nanocomposite hydrogels led to improved mechanical and self-healing properties. PAA-based hydrogels have great potential for more diverse applications than those of the commercial adhesives.
最近,有许多关于适用于湿环境和空气环境的功能型粘合剂的研究报告。在这项研究中,设计了一种新型聚合物水凝胶,模拟贻贝类足部蛋白质(Mfps),作为一种在湿环境下能强力粘附各种基底的粘合剂。合成了聚烯丙胺-咖啡酸(PAA-CA)缀合物,将儿茶酚部分引入 PAA 主链中。通过控制 pH 值,简单地制备了 PAA-CA 水凝胶,使其通过席夫碱反应形成动态亚胺键,而无需任何额外的交联剂。由于其残留的氨基,PAA-CA 水凝胶在湿环境下表现出更高的粘附强度,约为干燥条件下的 4.7 倍。此外,通过添加锂皂石(LP)制备了双重交联 PAA-CA 水凝胶。PAA-CA/LP 纳米复合水凝胶的动态亚胺键和离子键的协同效应导致其力学性能和自修复性能得到改善。基于 PAA 的水凝胶比商业粘合剂具有更大的应用潜力。
