<scp>Three‐Dimensional</scp>sp<sup>2</sup><scp>Carbon‐Linked</scp>Covalent Organic Frameworks as a Drug Carrier Combined with Fluorescence Imaging
Li Liao, Zerong Zhang, Xinyu Guan, Hui Li, Yaozu Liu, Minghao Zhang, Bin Tang, Valentin Valtchev, Yushan Yan, Shilun Qiu, Xiangdong Yao, Qianrong Fang
Abstract
Comprehensive Summary Three‐dimensional (3D) covalent organic frameworks (COFs) are crystalline porous polymers with potential in numerous high‐tech applications, but the linkages involved in their synthesis are still rather limited. Herein, we report novel 3D sp 2 carbon‐linked COFs fabricated by the formation reaction of C=C bonds and their application in fluorescence imaging. These new COFs, namely JUC‐580 and JUC‐581, show high stability and excellent light‐emitting properties in solid state and dispersed in various solvents. Furthermore, we investigate the potential application of JUC‐581 as a drug carrier combined with fluorescence imaging. These results indicate that 3D sp 2 carbon‐linked COFs are not only potential drug‐loaded and sustained release materials but also promising cell fluorescent stains. This study thus expands the structural categories of 3D COFs based on different linkages, and promotes their prospective applications for biomedicine and fluorescent materials.