5411-13-2

Basic information

• Product Name: N-(4-Acetylphenyl)benzamide
• Synonyms: N-(4-Acetylphenyl)benzamide;Nsc10921;4'-Acetylbenzanilide;N-(4-ethanoylphenyl)benzamide
• CAS NO: 5411-13-2
• Molecular Formula: C₁₅H₁₃NO₂
• Molecular Weight: 239.28
• Mol File: 5411-13-2.mol
• Article Data: 36

Chemical Properties

• Boiling Point: 326.8°Cat760mmHg
• Flash Point: 117.4°C
• Appearance: /
• Density: 1.197g/cm³
• Vapor Pressure: 0.000211mmHg at 25°C
• Refractive Index: 1.627
• CAS DataBase Reference: N-(4-Acetylphenyl)benzamide(CAS DataBase Reference)
• NIST Chemistry Reference: N-(4-Acetylphenyl)benzamide(5411-13-2)
• EPA Substance Registry System: N-(4-Acetylphenyl)benzamide(5411-13-2)

Safety Data

• Hazard Codes: Xi
• HazardClass: IRRITANT
• Hazardous Substances Data: 5411-13-2(Hazardous Substances Data)

Usage

InChI:InChI=1/C15H13NO2/c1-11(17)12-7-9-14(10-8-12)16-15(18)13-5-3-2-4-6-13/h2-10H,1H3,(H,16,18)

Upstream product

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Downstream Products

• 19646-22-1 1-(4-benzoylaminophenyl)-3-phenylpropane-1,3-dione 
• 78888-68-3 N-[4-(2-Morpholin-4-ylmethyl-acryloyl)-phenyl]-benzamide; hydrochloride 
• 78888-66-1 N-[4-(2-Piperidin-1-ylmethyl-acryloyl)-phenyl]-benzamide; hydrochloride 
• 78888-69-4 N-[4-(2-Azepan-1-ylmethyl-acryloyl)-phenyl]-benzamide; hydrochloride 
• 78888-67-2 N-{4-[2-(4-Benzyl-piperidin-1-ylmethyl)-acryloyl]-phenyl}-benzamide; hydrochloride 
• 95240-51-0 N-{4-[2-(3-Hydroxy-2-oxo-2,3-dihydro-1H-indol-3-yl)-acetyl]-phenyl}-benzamide 
• 92497-85-3 4-Benzamino-phenylglyoxal 
• 95240-55-4 N-(4-{2-[2-Oxo-1,2-dihydro-indol-(3E)-ylidene]-acetyl}-phenyl)-benzamide 
• 102546-08-7 benzoic acid-[4-(2-oxo-6-phenyl-1,2-dihydro-pyrimidin-4-yl)-anilide] 
• 112248-32-5 benzoic acid-[4-(5-phenyl-1⁽²⁾H-pyrazol-3-yl)-anilide] 
• 59659-99-3 4'-benzamido-2-bromoacetophenone 
• 1415398-51-4 N-(4-(2-amino-5-(phenyldiazenyl)thiazol-4-yl)phenyl)benzamide 
• 1415398-53-6 N-(4-(2-amino-5-((4-methoxyphenyl)diazenyl)thiazol-4-yl)phenyl)benzamide 
• 1415398-55-8 N-(4-(2-amino-5-(p-tolyldiazenyl)thiazol-4-yl)phenyl)benzamide 

Relevant articles and documents

A practical and sustainable protocol for direct amidation of unactivated esters under transition-metal-free and solvent-free conditions

In this paper, a NaOtBu-mediated synthesis approach was developed for direct amidation of unactivated esters with amines under transition-metal-free and solvent-free conditions, affording a series of amides in good to excellent yields at room temperature. In particular, an environmentally friendly and practical workup procedure, which circumvents the use of organic solvents and chromatography in most cases, was disclosed. Moreover, the gram-scale production of representative products3a,3wand3auwas efficiently realized by applying operationally simple, sustainable and practical procedures. Furthermore, this approach was also applicable to the synthesis of valuable molecules such as moclobemide (a powerful antidepressant), benodanil and fenfuram (two commercial agricultural fungicides). These results demonstrate that this protocol has the potential to streamline amide synthesis in industry. Meanwhile, quantitative green metrics of all the target products were evaluated, implying that the present protocol is advantageous over the reported ones in terms of environmental friendliness and sustainability. Finally, additional experiments and computational calculations were carried out to elucidate the mechanistic insight of this transformation, and one plausible mechanism was provided on the basis of these results and the related literature reports.

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A novel series of hydrazone derivatives were designed and synthesized. Their structures were characterized by IR, 1H NMR, 13C NMR and HR-MS spectroscopic methods. The newly synthesized compounds were evaluated for their inhibitory ac

Decarboxylative/Oxidative Amidation of Aryl α-Ketocarboxylic Acids with Nitroarenes and Nitroso Compounds in Aqueous Medium

The decarboxylative/oxidative amidation of aryl α-ketocarboxylic acids with 5-aryl-3-nitroisoxazole-4-carboxylates and substituted dinitrobenzenes under oxidative aqueous conditions to afford N-aryl amides is described. The reaction is suggested to proceed via a radical pathway in which a benzoyl nitroxyl radical, the key intermediate formed from reaction between nitroarene and benzoyl radical from glyoxalic acid, couples with hydroxyl radical from water to produce amide. Mechanistic insight allowed the scope of the strategy to be expanded to the synthesis of amides via reaction between aryl α-ketocarboxylic acids and nitroso compounds.