纳米纤维
堆积
材料科学
手性(物理)
共价键
聚合物
纳米管
纳米技术
聚合
纳米结构
化学工程
设计要素和原则
化学物理
自组装
超分子化学
透射电子显微镜
点反射
结晶学
作者
Xiao‐Rui Ren,Baichuan Kou,Qing Hao,Francesco Bertocchi,Ying Xu,Lu Wang,Zhen-Lian Zhao,Ting Chen,Li-Jun Wan,Dong Wang
标识
DOI:10.1038/s41467-025-66586-y
摘要
Engineering symmetry breaking is a fertile ground to develop innovative materials with fascinating properties. Herein, we introduce crystallographically incompatible rotation element into two-dimensional polymers and construct twist-stacked covalent organic framework nanofibers (abbreviated as t-COFs). These t-COFs are derived from polymerization between 2,4,6-triformylphloroglucinol and diamines modulated by monodentate alkylamine. Comprehensive electron microscopy analysis reveals their well-defined fibrous morphology and twist-stacking details. The time-dependent growth process study discloses a new radial growth pattern, which enables t-COFs to inherit twist-stacking from hexagonal macrocycle nanotube intermediate. Intriguingly, the twist-stacking mode is found to be intrinsic when using amine modulator, and enantiomeric bias towards one stacking direction can be achieved using chiral amine. Disrupting the inversion symmetry, the consecutive regular rotation of COF layers endows COF nanofibers with structural chirality and large chiroptical response.
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