140-75-0Relevant articles and documents
Method for preparing primary amine by catalytically reducing nitrile compounds through nano-porous palladium catalyst
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Paragraph 0089-0092, (2021/05/29)
The invention belongs to the technical field of heterogeneous catalysis, and provides a method for preparing primary amine by catalytically reducing nitrile compounds with a nano-porous palladium catalyst. According to the invention, aromatic and aliphatic nitrile compounds are adopted as raw materials, nano-porous palladium is adopted as a catalyst, ammonia borane is adopted as a hydrogen source, no additional additive is added, and selective hydrogenation is performed to prepare the corresponding primary amine. The method provided by the invention has the beneficial effects of mild reaction conditions, no additive, environmental protection, no need of hydrogen, simple operation, stable hydrogen source, safety, harmlessness, high conversion rate, high selectivity and good catalyst stability, and makes industrialization possible.
Synthesis method of p-fluorobenzylamine
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Paragraph 0006; 0013; 0016-0018; 0021-0023; 0026-0027, (2021/06/13)
The invention discloses a synthesis method of p-fluorobenzylamine, wherein the synthesis method specifically comprises the following steps: smoothly and sequentially adding methanol, p-fluorobenzaldehyde, sodium carbonate and hydroxylamine hydrochloride into a reaction kettle, and continuously stirring until the materials are uniformly mixed; and after uniformly mixing, stirring for 2.0 hours at the temperature of 30 DEG C, fully reacting to obtain an intermediate I, and carrying out hydrogenation reduction on the intermediate I to obtain a finished product p-fluorobenzylamine. In conclusion, the total yield of the finished product p-fluorobenzylamine prepared by the method is not lower than 90%, and the purity is not lower than 99.5%; therefore, compared with the prior art, the method has the following beneficial effects that the process is simple, the raw materials are easy to obtain, the reaction yield is high, the product purity is high, generation of dimer and generation of defluorination impurity benzylamine are avoided, generation of three wastes, especially generation of waste gas ammonia gas, is greatly reduced, and the method is clean and environmentally friendly.
Zirconium-hydride-catalyzed site-selective hydroboration of amides for the synthesis of amines: Mechanism, scope, and application
Han, Bo,Jiao, Haijun,Wu, Lipeng,Zhang, Jiong
, p. 2059 - 2067 (2021/09/02)
Developing mild and efficient catalytic methods for the selective synthesis of amines is a longstanding research objective. In this respect, catalytic deoxygenative amide reduction has proven to be promising but challenging, as this approach necessitates selective C–O bond cleavage. Herein, we report the selective hydroboration of primary, secondary, and tertiary amides at room temperature catalyzed by an earth-abundant-metal catalyst, Zr-H, for accessing diverse amines. Various readily reducible functional groups, such as esters, alkynes, and alkenes, were well tolerated. Furthermore, the methodology was extended to the synthesis of bio- and drug-derived amines. Detailed mechanistic studies revealed a reaction pathway entailing aldehyde and amido complex formation via an unusual C–N bond cleavage-reformation process, followed by C–O bond cleavage.