材料科学
涂层
催化作用
生物相容性材料
基质(水族馆)
保形涂层
纳米技术
相容性(地球化学)
自愈水凝胶
表面改性
化学工程
复合材料
高分子化学
有机化学
生物医学工程
化学
医学
工程类
地质学
海洋学
作者
Xingrong Ren,Jiayi Zhang,Fan Yang,Hong Xu,Gaoyang Guo,Yunbing Wang
标识
DOI:10.1002/adfm.202312465
摘要
Abstract Hydrogel coatings, with natural tissue‐like mechanical and biological compatibility, demonstrate promise for bulk material applications. However, existing coating methods lack efficiency and control, especially when dealing with complex geometries, diverse substrate materials, and varying sizes. In this study, an enzyme‐immobilized surface‐catalyzed cross‐link approach is proposed for the growth of hydrogel coatings on multiple substrates, accommodating various materials and shapes. The hydrogel coating is formed through the catalytic action of interface‐immobilized enzymes, which induce the crosslinking of hyaluronic acid, and its mechanical properties are further enhanced by introducing a secondary polyacrylamide network. This approach enables the controlled growth of conformal double network hydrogel coatings with a desired thickness on a wide range of substrate surfaces and devices. Notably, the hydrogel coating exhibits remarkable lubricity and anti‐thrombotic properties, especially desire for medical intervention devices. This advancement offers a universal route to impart biocompatible soft interfaces to bulk materials or devices.
科研通智能强力驱动
Strongly Powered by AbleSci AI