Chunlei Lu scite author profile

The formylation and methylation of amines with carbon dioxide and hydrosilanes are emerging yet important types of transformations for CO2. Catalytic methods effective for both reactions with wide substrate scopes are rare because of the difficulty in controlling the selectivity. Herein, we report that simple and readily available inorganic basesalkali-metal carbonates, especially cesium carbonatecatalyze both the formylation and methylation reactions efficiently under mild conditions. The selectivity can be conveniently controlled by varying the reaction temperature and silane. A “cesium effect” on both reactions was observed by comparing the catalytic activity of various alkali-metal carbonates. Combined experimental and computational studies suggested the following reaction mechanism: (i) activation of Si–H by Cs2CO3, (ii) insertion of CO2 into Si–H, (iii) formylation of amines by silyl formate, and (iv) reduction of formamides to methylamines.

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Synthesis, structure–activity relationship analysis and kinetics study of reductive derivatives of flavonoids as Helicobacter pylori urease inhibitors

Xiao

Peng

Dong

et al. 2013

European Journal of Medicinal Chemistry

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Scalable direct N-methylation of drug-like amines using 12CO2/13CO2 by simple inorganic base catalysis

Qiu

Zhu

et al. 2019

Science Bulletin

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Chunlei Lu

Selective Formylation and Methylation of Amines using Carbon Dioxide and Hydrosilane Catalyzed by Alkali-Metal Carbonates

Synthesis, structure–activity relationship analysis and kinetics study of reductive derivatives of flavonoids as Helicobacter pylori urease inhibitors

Scalable direct N-methylation of drug-like amines using 12CO2/13CO2 by simple inorganic base catalysis

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