Li Yuxi, Yan Jianhui, Liu Yujun, Xie Xu-Ming
Key Laboratory of Advanced Materials (MOE), Department of Chemical Engineering, Tsinghua University, Beijing 100084, China.
ACS Nano. 2022 Jan 25;16(1):1567-1577. doi: 10.1021/acsnano.1c10151. Epub 2021 Dec 27.
Stretchable and conductive hydrogels have emerged as promising candidates for intelligent and flexible electronic devices. Herein, based on a multibond network (MBN) design rationale, super tough and highly stretchable nanocomposite physical hydrogels are prepared, where 2D TiCT MXene nanosheets serve as multifunctional cross-linkers and effective stress transfer centers. Further MXene-poly(acrylic acid) (PAA)-Fe MBN physical hydrogels fabricated through controlled permeation of Fe exhibit prominent and well-balanced mechanical properties (, the tensile strength can reach 10.4 MPa and elongation at break can be as high as 3080%), attributed to the dual cross-linking network with dense Fe-mediated coordination cross-links between MXene nanosheets and PAA chains and sparse carboxy-Fe cross-links between PAA chains. Moreover, both conductive MXene nanosheets and numerous ions endow the hydrogels with superior conductivity (up to 3.8 S m), strain sensitivity (high gauge factor of 10.09), and self-healing performance, showing great prospect as intelligent flexible electronics.
可拉伸导电水凝胶已成为智能柔性电子设备的理想候选材料。在此,基于多键网络(MBN)设计原理,制备了超坚韧且高可拉伸的纳米复合物理水凝胶,其中二维TiCT MXene纳米片用作多功能交联剂和有效的应力传递中心。通过铁的可控渗透制备的进一步的MXene-聚(丙烯酸)(PAA)-Fe MBN物理水凝胶表现出突出且平衡良好的机械性能(拉伸强度可达10.4 MPa,断裂伸长率高达3080%),这归因于双重交联网络,即MXene纳米片与PAA链之间存在密集的铁介导配位交联以及PAA链之间存在稀疏的羧基-铁交联。此外,导电的MXene纳米片和大量离子赋予水凝胶优异的导电性(高达3.8 S m)、应变敏感性(高应变系数10.09)和自愈性能,作为智能柔性电子产品展现出巨大前景。
