化学
分子马达
共价键
绕固定轴旋转
分子机器
动力控制
平移运动
烯烃
调制(音乐)
机械化学
仿生材料
运动(物理)
旋转(数学)
桥(图论)
动能
链条(单位)
扭矩
纳米技术
纳米尺度
概念证明
共价有机骨架
作者
Junxia Ren,Yuyi Wang,Jinquan Suo,Zitao Wang,Xiaohong Chen,Bo Miao,Yiji Wang,Yaozu Liu,Daliang Zhang,Dan Zhao,Valentin Valtchev,Shilun Qiu,Qianrong Fang
摘要
Biological systems achieve macroscopic functionality through molecular machines operating within precisely organized scaffolds. Replicating this coordinated motion synthetically requires integrating high-performance molecular motors into structurally ordered, yet dynamically active, frameworks. We present a reticular design strategy for incorporating overcrowded alkene rotary motors into 3D covalent organic frameworks (COFs), creating JUC-666 as a prototype. This crystalline material maintains a unidirectional motor rotation in both solution and solid states, as confirmed by spectroscopic and kinetic analyses. The embedded motors enable dual-mode functionality: reversible CO2 uptake modulation (>83% capacity variation at 273 K) under light–dark cycling, and precisely controlled drug release with light-dosage-proportional kinetics, showing a ∼50-fold increase in cumulative release. These results demonstrate how COFs can bridge molecular-scale motion to macroscopic responses, establishing a platform for designing adaptive functional materials.
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