62082-19-3Relevant academic research and scientific papers
Sulfur promoted decarboxylative thioamidation of carboxylic acids using formamides as amine proxy
Kumar, Saurabh,Vanjari, Rajeshwer,Guntreddi, Tirumaleswararao,Singh, Krishna Nand
, p. 2012 - 2017 (2016)
An efficient decarboxylative thioamidation of arylacetic and cinnamic acids has been developed employing formamides as amine surrogate and sulfur as promoter. Thioamides with variant structural features are obtained under mild reaction conditions without the use of transition metal catalysts and oxidants.
Method for preparing aryl thioamide compound
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Paragraph 0095-0097, (2021/03/31)
The invention discloses a method for preparing an aryl thioamide compound. The method comprises the following steps: under the protection of inert gas, performing stirring to react for 6-12 hours at the reaction temperature of room temperature to 60 DEG C by taking aryl methanol as a substrate, sublimed sulfur as a sulfur source, an alkali metal complex formed by combining alkali metal salt and ligand as a catalyst, alkali as an accelerant, formamide as a solvent and an amine source; and carrying out post-treatment on the reaction product to obtain the aryl thioamide compound. According to theinvention, cheap and easily available aryl methanol is used as a substrate for three-component reaction to prepare the corresponding thioamide compound; the method for preparing the aryl thioamide compound has the technical advantages of simple technological process, high yield, less pollution, safety, environmental protection, greenness, mildness and the like.
K2S2O8-promoted aryl thioamides synthesis from aryl aldehydes using thiourea as the sulfur source
Bian, Yongjun,Qu, Xingyu,Chen, Yongqiang,Li, Jun,Liu, Leng
, (2018/09/10)
Thiourea as a sulfur atom transfer reagent was applied for the synthesis of aryl thioamides through a three-component coupling reaction with aryl aldehydes and N,N-dimethylformamide (DMF) or N,N-dimethylacetamide (DMAC). The reaction could tolerate various functional groups and gave moderate to good yields of desired products under the transition-metal-free condition.
Aqueous Compatible Protocol to Both Alkyl and Aryl Thioamide Synthesis
Wei, Jianpeng,Li, Yiming,Jiang, Xuefeng
supporting information, p. 340 - 343 (2016/02/03)
An efficient aqueous synthesis of thioamides through aldehydes, sodium sulfide, and N-substituted formamides has been developed. Both alkyl and aryl aldehydes are amenable to this protocol. N-Substituted formamides are essential for this transformation. Readily available inorganic salt (sodium sulfide) serves as the sulfur source in water, which makes this method much more practical and efficient. Furthermore, the late-stage modification of bioactive molecules and derivatives through this protocol has been established.
