Designing narcissistic self-sorting terpyridine moieties with high coordination selectivity for complex metallo-supramolecules
Jianjun Ma, Tong Lu, Xiaozheng Duan, Yaping Xu, Zhikai Li, Kehuan Li, Junjuan Shi, Qixia Bai, Zhe Zhang, Xin‐Qi Hao, Zhi Chen, Pingshan Wang, Ming Wang
Abstract
Coordination-driven self-assembly is a powerful approach for the construction of metallosupramolecules, but designing coordination moieties that can drive the self-assembly with high selectivity and specificity remains a challenge. Here we report two ortho-modified terpyridine ligands that form head-to-tail coordination complexes with Zn(II). Both complexes show narcissistic self-sorting behaviour. In addition, starting from these ligands, we obtain two sterically congested multitopic ligands and use them to construct more complex metallo-supramolecules hexagons. Because of the non-coaxial structural restrictions in the rotation of terpyridine moieties, these hexagonal macrocycles can hierarchically self-assemble into giant cyclic nanostructures via edge-to-edge stacking, rather than face-to-face stacking. Our design of dissymmetrical coordination moieties from congested coordination pairs show remarkable self-assembly selectivity and specificity.