61752-66-7Relevant articles and documents
Method for preparing phenyl propenone compound by catalyzing phenylacetylene through molecular sieve
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Paragraph 0076-0080, (2021/03/13)
The invention belongs to the field of molecular sieve catalysis and organic synthesis, and discloses a method for preparing a phenyl propenone compound by catalyzing phenylacetylene through a molecular sieve, which comprises the following steps: adding a phenylacetylene compound I, aldehyde II and a molecular sieve catalyst into a small reaction kettle without adding an organic solvent and any other assistants; performing stirring to react for 0.25-6 hours under the condition of heating at 30-90 DEG C, cooling the reaction kettle to room temperature, performing diluting with ethyl acetate, andcentrifugally separating the catalyst to obtain the phenyl allyl ketone compound III. The molecular sieve catalyst provided by the invention is H-beta of which the silica-alumina ratios are respectively 14 and 29. The method is simple in reaction process, high in catalytic activity and selectivity, recyclable, environmentally friendly and capable of achieving large-scale industrial production.
Nickel-catalyzed remote hydrosilylation of unconjugated enones with bulky triphenylsilane
Chen, Xue,Jin, Hongwei,Liu, Yunkui,Wang, Zhen,Zhou, Bingwei,Zhou, Jinyong
supporting information, p. 8021 - 8024 (2021/10/04)
Herein we describe a nickel-catalyzed remote hydrosilylation of unconjugated enones with bulky triphenylsilane. A range ofZ-silyl enol ethers are obtained as major isomers due to the process of nickel triggered alkene isomerization. Notably, some specific
Solvent free, light induced 1,2-bromine shift reaction of α-bromo ketones
An, Sejin,Moon, Da Yoon,Park, Bong Ser
, p. 6922 - 6928 (2018/10/24)
Photolysis of α-bromopropiophenones in acetonitrile results in formation of β-bromopropiophenones with good product selectivity, which can be coined as 1,2-Br shift reaction. The product selectivity increases when the reaction is done in neat or solid state, where only the 1,2-Br shift product is formed in some cases. The reaction is suggested to proceed by C–Br bond homolysis to give a radical pair, followed by disproportionation and conjugate addition of HBr to the α,β-unsaturated ketone intermediate. When the unsaturated intermediate is stabilized by an extra conjugation, the reaction stops at the stage, in which the unsaturated ketone becomes a major product. The synthetic method described in this research fits in a category of eco-friendly organic synthesis nicely since the reaction does not use volatile organic solvents and any other additives such as acid, base or metal catalysts, etc. Besides, the method fits into perfect atom economy, which does not give any side products. The synthetic method should find much advantage over other alternative methods to obtain β-bromo carbonyl compounds.