Visible-Light-Driven Rotation of Molecular Motors in Discrete Supramolecular Metallacycles
Zhao-Tao Shi, Yi-Xiong Hu, Zhubin Hu, Qi Zhang, Shao‐Yu Chen, Meng Chen, Jingjing Yu, Guangqiang Yin, Haitao Sun, Lin Xu, Xiaopeng Li, Ben L. Feringa, Hai‐Bo Yang, He Tian, Da‐Hui Qu
Abstract
in solution. CD studies show that the helicity inversions associated with each isomerization step in the rotary cycle are preserved. To explore collective motion, the trimeric motor-containing metallacycle was aggregated with heparin through multiple electrostatic interactions, to construct a multi-component hierarchical system. SEM, TEM, and DLS measurements revealed that the photo- and thermal-responsive molecular motor units enabled selective manipulation of the secondary supramolecular aggregation process without dissociating the primary metallacycle structures. These visible-light-responsive metallacycles, with intrinsic multiple rotary motors, offer prospects for cooperative operations, dynamic hierarchical self-assembled systems, and adaptive materials.