对映选择合成
化学
组合化学
模板
纳米技术
可扩展性
手性(物理)
催化作用
计算化学
反应条件
机制(生物学)
分子
化学合成
金属有机骨架
光学活性
作者
Tiankai Sun,Zongsu Han,Yue Mao,Yuanjian Wu,Wenyue Cui,Jianfeng Li,Peng Cheng,Hong-Cai Zhou,Wei Shi
摘要
The efficient integration of chiral building blocks into metal-organic frameworks (MOFs) is critical for advancing both the streamlined synthesis of chiral MOFs and enantioselective applications in various fields. Herein, we report a gas-solid reaction to achieve rapid synthesis of hierarchically chiral MOFs, CMOF-T and CMOF-S, in the complete absence of templates or solvents. This strategy ensures the full incorporation of chiral precursors into the framework, creating hierarchical porosity and preserving the excellent structural stability. CMOF-S exhibits exceptional enantioselectivity (up to 4.34) toward a diverse range of chiral drugs and drug intermediates, with ultrafast response (∼10 s). Mechanism investigations reveal that the tailored photophysical processes dictate the sensing performance, and enantioselectivity originates from highly selective host-guest interactions between the introduced chemical species and target enantiomers. This work establishes a scalable and sustainable route for the synthesis of chiral MOFs, providing a robust platform for rapid enantioselective sensing.
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