纳米复合水凝胶(NC-Gels)因兼具有机相及无机相的优点,且具有独特的结构特征和理化性能,近年来已成为水凝胶领域的研究重点,在智能器件、生物医药、组织工程等领域有着广泛的应用前景.基于有机/无机杂化原理,通过交联点的结构与功能性设计和凝胶网络的可控构筑,获得了一系列力学性能优异并具有多重响应甚至智能化响应的NC-Gels,并提出了以有机微球或功能化杂化微球分别为交联点构建纳米复合水凝胶(OC-Gels)和杂化水凝胶(H-Gels)的新方法,探索了其在生物医学和智能传感领域等的初步应用. Nano-composite hydrogels (NC-Gels) have become the focus of research in the field of hydrogels due to the advantages of both organic and inorganic phases, as well as their unique structural features and physical and chemical properties. In recent years, Tissue engineering and other fields.According to the principle of organic / inorganic hybridization, through the structural and functional design of cross-linked points and the controllable construction of gel network, a series of excellent mechanical properties and multi-response and even intelligent Response to NC-Gels, and proposed a new method of constructing nanocomposite hydrogels (OC-Gels) and hybrid hydrogels (H-Gels) by using organic microspheres or functionalized hybrid microspheres as crosslinking points respectively Method, and explored its preliminary application in the fields of biomedicine and smart sensing.