Four-component defluorinative reaction of allylic fluorides, amidines, and Cs2CO3 under transition-metal-free conditions

Yu Lan Chen; Li Wen Sun; Jia Wei Chen; Ming Quan Zhu; Mengtao Ma; Zhi Liang Shen; Xue Qiang Chu

doi:10.1039/d2gc02045a

Four-component defluorinative reaction of allylic fluorides, amidines, and Cs₂CO₃ under transition-metal-free conditions

Yu Lan Chen, Li Wen Sun, Jia Wei Chen, Ming Quan Zhu, Mengtao Ma, Zhi Liang Shen, Xue Qiang Chu

School of Chemistry and Moleculai Engineering

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Research interest in defluorinative functionzalization by means of the distinctive fluorine effect of organofluorides has led to rapid development in this topic. Herein, we reported an unprecedented four-component defluorinative reaction of allylic fluorides, amidines, and Cs₂CO₃ for the convenient synthesis of valuable pyrimidine-containing amidino carbamates under transition-metal-free conditions. The synthetic linchpin for realizing the multi-bonding tandem protocol relied on the directed function of the α-positioned hydroxyl group and the activating effect of the perfluoroalkyl substituent in allylic fluorides. Moreover, cesium carbonate served as a green carbonyl equivalent for formal CO capture. Mechanistic studies revealed that the reaction proceeded via a possible cyclic carbonate intermediate.

Original language	English
Pages (from-to)	6816-6822
Number of pages	7
Journal	Green Chemistry
Volume	24
Issue number	18
DOIs	https://doi.org/10.1039/d2gc02045a
State	Published - 17 Aug 2022

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abstract = "Research interest in defluorinative functionzalization by means of the distinctive fluorine effect of organofluorides has led to rapid development in this topic. Herein, we reported an unprecedented four-component defluorinative reaction of allylic fluorides, amidines, and Cs2CO3 for the convenient synthesis of valuable pyrimidine-containing amidino carbamates under transition-metal-free conditions. The synthetic linchpin for realizing the multi-bonding tandem protocol relied on the directed function of the α-positioned hydroxyl group and the activating effect of the perfluoroalkyl substituent in allylic fluorides. Moreover, cesium carbonate served as a green carbonyl equivalent for formal CO capture. Mechanistic studies revealed that the reaction proceeded via a possible cyclic carbonate intermediate.",

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T1 - Four-component defluorinative reaction of allylic fluorides, amidines, and Cs2CO3 under transition-metal-free conditions

AU - Chen, Yu Lan

AU - Sun, Li Wen

AU - Chen, Jia Wei

AU - Zhu, Ming Quan

AU - Ma, Mengtao

AU - Shen, Zhi Liang

AU - Chu, Xue Qiang

PY - 2022/8/17

Y1 - 2022/8/17

N2 - Research interest in defluorinative functionzalization by means of the distinctive fluorine effect of organofluorides has led to rapid development in this topic. Herein, we reported an unprecedented four-component defluorinative reaction of allylic fluorides, amidines, and Cs2CO3 for the convenient synthesis of valuable pyrimidine-containing amidino carbamates under transition-metal-free conditions. The synthetic linchpin for realizing the multi-bonding tandem protocol relied on the directed function of the α-positioned hydroxyl group and the activating effect of the perfluoroalkyl substituent in allylic fluorides. Moreover, cesium carbonate served as a green carbonyl equivalent for formal CO capture. Mechanistic studies revealed that the reaction proceeded via a possible cyclic carbonate intermediate.

AB - Research interest in defluorinative functionzalization by means of the distinctive fluorine effect of organofluorides has led to rapid development in this topic. Herein, we reported an unprecedented four-component defluorinative reaction of allylic fluorides, amidines, and Cs2CO3 for the convenient synthesis of valuable pyrimidine-containing amidino carbamates under transition-metal-free conditions. The synthetic linchpin for realizing the multi-bonding tandem protocol relied on the directed function of the α-positioned hydroxyl group and the activating effect of the perfluoroalkyl substituent in allylic fluorides. Moreover, cesium carbonate served as a green carbonyl equivalent for formal CO capture. Mechanistic studies revealed that the reaction proceeded via a possible cyclic carbonate intermediate.

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U2 - 10.1039/d2gc02045a

DO - 10.1039/d2gc02045a

M3 - 文章

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JO - Green Chemistry

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ER -

Four-component defluorinative reaction of allylic fluorides, amidines, and Cs₂CO₃ under transition-metal-free conditions

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