化学
介观物理学
化学物理
手性(物理)
纳米技术
凝聚态物理
手征对称性
物理
材料科学
量子力学
Nambu–Jona Lasinio模型
夸克
作者
Yajie Zhang,Lihua Li,Jie Feng,Xia Deng,Tu Sun,Junfeng Huang,Yaqi Fan,Yu‐Bao Lan,Zhipeng Wang,Xiaomin Li,Lin Liang,San‐Yuan Ding,Yanhang Ma,Yong Peng,Wei Wang
摘要
Unraveling the mechanism of chirality transfer across length scales is crucial to the rational development of functional materials with hierarchical chirality. The key obstacle is the lack of structural information, especially at the mesoscopic level. We report herein the structural identification of helical covalent organic frameworks (heliCOFs) with hierarchical chirality, which integrate molecular chirality, channel chirality, and morphology chirality into one crystalline entity. Specifically, benefiting from the highly ordered structure of heliCOFs, the existence of chiral channels at the mesoscopic level has been confirmed by electron crystallography, and the handedness of these chiral channels has been directly determined through the stereopair imaging technique. Accordingly, the chirality transfer in heliCOFs from microscopic to macroscopic levels could be rationalized with a layer-rotating model that has been supported by both crystal structure analysis and theoretical calculations. Observation of chiral channels in heliCOFs not only provides unprecedented data for the understanding of the chirality transfer process but also sheds new light on the rational construction of highly ordered polymeric materials with hierarchical chirality.
科研通智能强力驱动
Strongly Powered by AbleSci AI