Growing large single crystals of two- or three-dimensional covalent organic polymers through unconventional Te-O-P linkages

Xue, Miaomiao; Zhang, Lei; Li, Xiao-Xin; Chen, Zihao; Kang, Fangyuan; Wang, Xiang; Dong, Qiang; Wang, Xin; Lee, Chun-Sing; Lan, Ya-Qian; Zhang, Qichun

Growing large single crystals of two- or three-dimensional covalent organic polymers through unconventional Te-O-P linkages

Miaomiao Xue, Lei Zhang, Xiao-Xin Li, Zihao Chen, Fangyuan Kang, Xiang Wang, Qiang Dong, Xin Wang, Chun-Sing Lee, Ya-Qian Lan () and Qichun Zhang ()
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Miaomiao Xue: City University of Hong Kong
Lei Zhang: City University of Hong Kong
Xiao-Xin Li: South China Normal University
Zihao Chen: City University of Hong Kong
Fangyuan Kang: City University of Hong Kong
Xiang Wang: City University of Hong Kong
Qiang Dong: City University of Hong Kong
Xin Wang: City University of Hong Kong
Chun-Sing Lee: City University of Hong Kong
Ya-Qian Lan: South China Normal University
Qichun Zhang: City University of Hong Kong

Nature Communications, 2024, vol. 15, issue 1, 1-8

Abstract: Abstract Understanding precise structures of two-/three- dimensional (2D/3D) covalent organic polymers (COPs) through single-crystal X-ray diffraction (SCXRD) analysis is important. However, how to grow high-quality single crystals for 2D/3D COPs is of challenge due to poor reversibility and difficult self-correction of covalent bonds. In addition, the success of introducing tellurium into the backbone to construct 2D/3D COPs and obtaining their single crystals is rare. Here, utilizing the strategy that a heavy element (e.g., tellurium) can form dynamic linkages with a self-correction function, we develop a fast and universal method for growing large-sized single crystals (up to 500 µm) for 2D/3D COPs, especially for 2D COPs. Three 2D COPs and one 3D COP are harvested through dynamic -Te-O-P- bonds in two days, with structures clearly uncovered via the SCXRD analysis. These 2D/3D COPs also show promising photocatalytic activities (nearly 100% selectivity and 100% yield) in superoxide anion radical-mediated coupling of (arylmethyl)amines.

Date: 2024
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DOI: 10.1038/s41467-024-54235-9

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