89-63-4Relevant articles and documents
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McMaster,Steiner
, p. 547 (1930)
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Fenbendazole production process and production device
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Paragraph 0027; 0035-0037; 0045-0047; 0056-0058; 0076, (2021/01/24)
The invention discloses a fenbendazole production process and a production device, the production process comprises a nitration reaction, a condensation reaction, a reduction reaction and a cyclization reaction, and finally the fenbendazole is obtained through centrifugation and drying. The production device comprises a plurality of reaction kettles, a distillation device and a distillation recovery device, the reaction kettles are respectively a nitration reaction kettle, a condensation reaction kettle, a cyclization reaction kettle and a reduction reaction kettle, and the nitration reactionkettle, the condensation reaction kettle, the cyclization reaction kettle, the distillation device and the reduction reaction kettle are sequentially communicated through feeding pipes. According to the process, the product purity can be improved; few types of chemical reagents are adopted, and methanol and methylbenzene are recycled so that reagent consumption is reduced, waste is avoided, and the process is economical and environmentally friendly; the process route is simple, the production period is shortened, and the production efficiency is improved; according to the production device, automatic feeding is achieved through the feeding mechanism, the automation degree is high, manual operation is reduced, and efficiency is improved.
Starch functionalized creatine for stabilization of gold nanoparticles: Efficient heterogeneous catalyst for the reduction of nitroarenes
Gholinejad, Mohammad,Dasvarz, Neda,Shojafar, Mohammad,Sansano, José M.
, (2019/06/27)
Selective reduction of nitroaromatic pollutants into amines with recoverable and reusable heterogeneous catalysts is highly desirable. Herein, we prepared and characterized an efficient novel catalyst comprising 4 nm size Au nanoparticles supported on creatine modified starch. Using this catalyst, efficient reduction of nitroarenes into amines at room temperature in aqueous media was achieved. The presence of creatine in the structure of the catalyst plays important role in amount of Au loading, efficiency of the catalyst, recycling times, and leaching of Au compared to starch supported Au without creatine.