Metallaphotocatalytic Amination of Aryl Chlorides Enabled by Highly Crystalline Acetylene-Based Hydrazone-linked Covalent Organic Frameworks

Pub Date : 2023-03-30 DOI:10.26434/chemrxiv-2023-z0xx1

Yusran Yusran, Jiabin Xing, Qihan Lin, Gang Wu, Wen-Chang Peng, Yan Wu, Tianhui Su, Lingyi Yang, Liming Zhang, Qiaowei Li, Hui Wang, Zhan-Ting Li, Dan-Wei Zhang

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Abstract

Amination of aryl chlorides by metallaphotocatalysis is highly desired but remained practically challenging. Meanwhile, relying on soluble noble-metal photocatalysts suffers from resource scarcity and structural instability which limit their practical application. Here in, a highly crystalline acetylene-based hydrazone-linked BTH-THFEB COF is reported that enable metallaphotocatalytic amination of aryl chlorides. The non-planar effect of hydrazone linkage and weak interlayer attraction of acetylene bond were minimized by intralayer hydrogen-bonding. As a result, the COF showed not only an improved crystallinity and porosity, but also enhanced optical and electronic properties compared to a COF analogue without hydrogen-bonding. Notably, dual BTH-THFEB/Ni system afforded C─N coupling products from broad aryl chloride substrates in excellent yields (up to 99%) and good functional tolerance. Furthermore, BTH-THFEB is recoverable and reusable for five times photocatalysis cycles. This report demonstrates simple approach to tune the structure-activity relationship in COFs at molecular level.

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高结晶乙炔基腙连接共价有机骨架的金属光催化芳酰氯胺化反应

金属光催化的芳酰氯胺化是非常需要的，但实际上仍然具有挑战性。同时，依赖可溶性贵金属光催化剂存在资源稀缺和结构不稳定等问题，限制了其实际应用。本文报道了一种高度结晶的乙炔基腙连接的BTH-THFEB COF，它可以实现芳酰氯的金属光催化胺化。层内氢键能最大限度地降低腙键的非平面效应和乙炔键的层间弱引力。结果表明，与没有氢键的COF相比，COF不仅具有更好的结晶度和孔隙度，而且光学和电子性能也有所提高。值得注意的是，双BTH-THFEB/Ni体系可以从广泛的芳烃底物中获得极好的收率(高达99%)和良好的功能耐受性的C─N偶联产物。此外，BTH-THFEB可回收并可重复使用五次光催化循环。本报告展示了在分子水平上调整COFs结构-活性关系的简单方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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