Growth and Local Structures of Single Crystalline Flakes of Three-Dimensional Covalent Organic Frameworks in Water

纳米技术 化学 共价键 单晶 晶体结构 晶体生长 热稳定性 结晶学 化学物理 材料科学 有机化学
作者
Xin Dong,Baokun Liang,Zhipeng Zhou,Honglin Du,Honglei Wang,Jiaxing Lu,Chaolun Liang,Li Gong,Yuyao Li,Zihao Liang,Junliang Sun,Haoyuan Qi,Wei Liu,Xudong Chen,Zhikun Zheng
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:145 (40): 22079-22085 被引量:23
标识
DOI:10.1021/jacs.3c07684
摘要

Due to the enormous chemical and structural diversities and designable properties and functionalities, covalent organic frameworks (COFs) hold great promise as tailored materials for industrial applications in electronics, biology, and energy technologies. They were typically obtained as partially crystalline materials, although a few single-crystal three-dimensional (3D) COFs have been obtained recently with structures probed by diffraction techniques. However, it remains challenging to grow single-crystal COFs with controlled morphology and to elucidate the local structures of 3D COFs, imposing severe limitations on the applications and understanding of the local structure-property correlations. Herein, we develop a method for designed growth of five types of single crystalline flakes of 3D COFs with controlled morphology, front crystal facets, and defined edge structures as well as surface chemistry using surfactants that can be self-assembled into layered structures to confine crystal growth in water. The flakes enable direct observation of local structures including monomer units, pore structure, edge structure, grain boundary, and lattice distortion of 3D COFs as well as gradually curved surfaces in kinked but single crystalline 3D COFs with a resolution of up to ∼1.7 Å. In comparison with flakes of two-dimensional crystals, the synthesized flakes show much higher chemical, mechanical, and thermal stability.
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