202916-57-2Relevant academic research and scientific papers
Anodically Triggered Aldehyde Cation Autocatalysis for Alkylation of Heteroarenes
Liu, Caiyan,Xiao, Zihui,Wu, Shuhua,Shen, Yongli,Yuan, Kedong,Ding, Yi
, p. 1997 - 2001 (2020)
Alkylation of heteroarenes by using aldehydes is a direct approach to increase molecular complexity, which however often involves the use of stochiometric oxidant, strong acid, and high temperature. This study concerns an energy-efficient electrochemical alkylation of heteroarenes by using aldehydes under mild conditions without mediators. Interestingly, the graphite anode can trigger aldehyde cationic species, which act as the effective autocatalysts to react with a range of heteroarenes to produce the corresponding products with excellent regioselectivity and in high yields. Compared to the traditional electro-synthesis approaches, this electro-triggered reaction provides an electricity-saving and eco-friendly route to high-value chemicals.
Synthesis method of triarylmethane and derivative thereof under solvent-free condition
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Paragraph 0028; 0029, (2018/02/28)
The invention discloses a synthesis method of triarylmethane and a derivative thereof under a solvent-free condition and belongs to the field of synthesis of organic compounds. According to the synthesis method disclosed by the invention, sulfamic acid is used as a catalyst and aromatic aldehyde and aromatic hydrocarbon are used as raw materials to synthesize a target object through one-step synthesis. The synthesis method disclosed by the invention has moderate reaction conditions, the catalyst is environmentally friendly and can be recycled and the yield is high; the low yield reaches 43 percent or more and the high yield reaches 98 percent or more; the synthesis method has relatively good universality, small influences on environment and actual popularization and application value.
