54920-45-5

Upstream product

• 860371-89-7 4-acetyl-2-p-tolyl-isoxazolidin-5-one 
• 106-49-0 p-toluidine 
• 7119-27-9 4-chloro-3-buten-2-one 
• 5436-21-5 acetylacetaldehyde dimethyl acetal 
• 83584-02-5 C₁₈H₂₀N₂ 
• 1423-60-5 methyl ethynyl ketone 
• 78486-47-2 l-(N-benzoyl-p-methylphenylamino)-3-(p-methylphenylimino)-1-butene 
• 82947-20-4 1-(N-tosyl-p-methylphenylamino)-3-(p-methylphenylimino)-1-butene 
• 135523-42-1 1-(p-methylphenylamino)-3-(p-methylphenylimino)-1-butene 
• 78486-50-7 1-(p-methylphenylamino)-3-(p-methylphenylimino)-1-butene hydrochloride 
• 41125-09-1 3-oxo-butyraldehyde; sodium enolate 

Downstream Products

• 126956-17-0 N,1,3,3,3-pentadeuterio-4-(p-methylphenylamino)-3-buten-2-one 
• 78486-49-4 4-(N-benzoyl-p-toluidino)-3-buten-2-one 
• 54920-42-2 p-Methylphenylamino-4 butene-3 thione-2 

Relevant academic research and scientific papers

Conjugate Addition of 3-Buytn-2-one to Anilines in Ethanol: Alkene Geometric Insights through in Situ FTIR Monitoring

A convenient, mild and effective conjugate addition of 3-butyn-2-one to a variety of anilines in ethanol is reported. The reaction was monitored and characterized through in situ FTIR, and the dynamics of the facile E/Z alkene geometry interconversion of the resultant aniline-derived enaminones was explored through NMR, FTIR and X-ray crystallography. A straightforward purification protocol that employs direct Kugelrohr distillation was identified, and the method was further extended to other amines and ynones, allowing rapid access to these interesting compounds.

A Method for the Preparation of β-Amino-α,β-unsaturated Carbonyl Compounds: Study of Solvent Effect and Mechanism

An efficient method for the preparation of β-amino-α,β-unsaturated carbonyl compounds is demonstrated. Bench-stable sodium 3-oxo-enolates were prepared from carbonyl compounds, and reacted with amines in the presence of an acid and a desiccant. DFT studie

Preparation and Cyclodehydration of β-Arylaminocrotonaldehyde

β-Arylaminocrotonaldehydes (3) were prepared by alkaline hydrolysis of 1-arylamino-3-arylimino-1-butenes (2).On treatment with sulfuric acid, β-anilinocrotonaldehyde (3b) and p-methyl- (3a), m-chloro- (3c), and p-chloro- (3d) derivatives were cyclodehydrated to give the corresponding quinaldines in quantitative yields.The protonation of 3 was proved to take place at the oxygen atom on the basis of spectral evidence.The mechanism of the cyclodehydration is discussed.Keywords-Combes reaction; cyclodehydration; hydrolysis; β-arylaminocrotonaldehyde; 1-arylamino-3-arylimino-1-butene; quinaldine derivative; protonation

Hydrolysis of Aryl Derivates of Malonaldehyde Dianil. III

The reaction sequence of hydrolysis of N-acyl derivates of malonaldehyde dianil was examined.Hydrichloric acid-catalysed hydrolysis occured at the imino group to form arylamine and β-(N-acylarylamino)acrolein; the latter compound is not stable in acid solution.In the case of 1-(N-phenylcarbamoyl-p-methylphenylamino)-3-(p-methylphenylimino)-1-propene, hydrolysis occured at both the imino and the carbamoyl groups.Buffer catalysed hydrolysis occured at the imino group, and the resulting β-(N-acylarylamino)acrolein and arylamine reacted to form β-arylaminoacrolein and N-arylamine.The aminolysis reaction was suppressed in hydrochloric acid-catalysed hydrolysis.Alkaline hydrolysis of N-acyl derivates of malonaldehyde dianil and of β-arylaminoacrolein occured at the amide carbonyl group except in the case of 1-(N-tosyl-p-methylphenylamino)-3-(p-methylphenylimino)-1-propene.N-tosyl-p-toluidine was obtained in this case.Keywords--hydrolysis; malonaldehyde dianil; β-arylaminoacrolein; 1-(N-acylarylamino)-3-arylamino-1-propene; β-(N-acylarylamino)acrolein; 1-(N-tosyl-p-methylphenyilamino)-3-(p-methylphenylimino)-1-propene; 1-(N-tosyl-p-methylphenylamino)-3-(p-methylphenyilimino-1-butene; β-(N-tosyl-p-toluidino)acrolein; 4-(N-tosyl-p-toluidino)-3-buten-2-one

Hydrolysis of Acyl Derivates of Malonaldehyde Dianil. II. Aminolysis and Alcoholysis of Acyl Derivates of Malonaldehyde Dianil and β-Arylaminoacrolein

Aminolysis and alcoholysis reactions of β-arylaminoacrolein and its N-acyl derivates were studied.Acid-catalysed aminolysis of β-(N-benzoyl-p-toluidino)acrolein (III) occured at the β-position of III, accompanying the reversible interaction of the amine and the formyl group of III.In the reaction of III and amine in methanol under neutral conditions, aminolysis at the β-position of III and alcoholysis of the amide carbonyl group of III proceeded in parallel; the latter reaction was catalysed by amine.In either case, no evidence of aminolysis at the amide carbonyl group of III was obtained.The reaction of the fotmyl group of III proceeded mainly when III and amine were reacted in benzene solution.Thus, 1-(N-benzoyl-p-methylphenylamino)-3-(p-chlorophenylimino)-1-propene (XII) was obtained when III and p-chloroaniline were reacted in benzene.Alkaline hydrolysis of XII afforded 1-(p-methylphenylamino)-3-(p-chlorophenylimino)-1-propene (XIII), an unsymmetrical malonaldehyd dianil.Aminolysis and alcoholysis reactions of 1-arylamino-3-arylimino-1-propene(malonaldehyde dianil) and its N-acyl-derivates were also studied.Alcoholysis occured at the amide carbonyl group of N-acyl derivates, while aminolysis occured at the 1-position except for the case of 1-(N-phenylcarbamoyl-p-methylphenylamino)-3-(p-methylphenylimino)-1-propene (XIV).Keywords--aminolysis; alcoholysis; β(N-benzoyl-p-toluidino)acrolein; β-(N-phenycarbamoyl-p-toluidino)acrolein; l-(N-benzoyl-p-methylphenylamino)-3-(p-methylphenylimino)-1-propene; l-(N-benzoyl-p-methylphenylamino)-3-(chlorophenylimino)-1-propene; 1-(p-methyphenylamino)-3-(p-chlorophenylimino)-1-propene; 1-(N-phenylcarbamoyl-p-methylphenylamino)-3-(p-methylphenylamino)-3-(p-methylphenylimino)-1-propene