A redox-neutral catechol synthesis

被引：0

作者：

Qian Wu

Dingyuan Yan

Ying Chen

Ting Wang

Feng Xiong

Wei Wei

Yi Lu

Wei-Yin Sun

Jie Jack Li

Jing Zhao

机构：

[1] Guangdong Key Lab of Nano-Micro Material Research,Department of Chemistry

[2] School of Chemical Biology and Biotechnology,Department of Chemistry

[3] Peking University Shenzhen Graduate School,undefined

[4] State Key Laboratory of Coordination Chemistry,undefined

[5] Institute of Chemistry and BioMedical Sciences,undefined

[6] School of Chemistry and Chemical Engineering,undefined

[7] Collaborative Innovation Centre of Chemistry for Life Sciences,undefined

[8] Nanjing University,undefined

[9] School of Chemical Biology and Biotechnology,undefined

[10] Peking University Shenzhen Graduate School,undefined

[11] University of San Francisco,undefined

来源：

Nature Communications | / 8卷

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摘要：

Ubiquitous tyrosinase catalyses the aerobic oxidation of phenols to catechols through the binuclear copper centres. Here, inspired by the Fischer indole synthesis, we report an iridium-catalysed tyrosinase-like approach to catechols, employing an oxyacetamide-directed C–H hydroxylation on phenols. This method achieves one-step, redox-neutral synthesis of catechols with diverse substituent groups under mild conditions. Mechanistic studies confirm that the directing group (DG) oxyacetamide acts as the oxygen source. This strategy has been applied to the synthesis of different important catechols with fluorescent property and bioactivity from the corresponding phenols. Finally, our method also provides a convenient route to 18O-labelled catechols using 18O-labelled acetic acid.

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