1219-99-4

Basic information

• Product Name: N,N'-BIS(P-CHLOROPHENYL)UREA
• Synonyms: N,N'-bis(4-chlorophenyl)urea;Triclocarban Related CoMpound A
• CAS NO: 1219-99-4
• Molecular Formula: C₁₃H₁₀Cl₂N₂O
• Molecular Weight: 281.1373
• Mol File: 1219-99-4.mol
• Article Data: 99

Chemical Properties

• Melting Point: 306-307 °C
• Boiling Point: 318.3 °Cat760mmHg
• Flash Point: 146.3 °C
• Appearance: liquid
• Density: 1.45 g/cm³
• PKA: 13.14±0.70(Predicted)
• CAS DataBase Reference: N,N'-BIS(P-CHLOROPHENYL)UREA(CAS DataBase Reference)
• NIST Chemistry Reference: N,N'-BIS(P-CHLOROPHENYL)UREA(1219-99-4)
• EPA Substance Registry System: N,N'-BIS(P-CHLOROPHENYL)UREA(1219-99-4)

Safety Data

• Hazardous Substances Data: 1219-99-4(Hazardous Substances Data)

Usage

Uses

Triclocarban Related Compound A is an impurity of the antimicrobial triclocarban.

Upstream product

• 99137-13-0 5-(4-chlorophenyl)-1-phenyl-1H-tetrazole 
• 104-12-1 p-chlorphenylisocyanate 
• 106-47-8 4-chloro-aniline 
• 88-17-5 2-(trifluoromethyl)benzenamine 
• 84784-23-6 1,3-bis(4-chlorophenyl)-1-nitrosourea 
• 101-92-8 4'-Chloroacetoacetanilide 
• 32315-10-9 bis(trichloromethyl) carbonate 
• 110-05-4 di-tert-butyl peroxide 
• 2617-79-0 N-(4-chlorophenyl)formamide 
• 3647-20-9 N-(4-chlorophenylcarbamoyl)-aziridine 
• 83-13-6 diethyl 2-phenylmalonate 
• 4684-84-8 1-Methyl-3-(hydroxymethyl)-1,2,5,6-tetrahydropyridine 
• 36166-75-3 1-methyl-1,2,3,6-tetrahydropyridine-4-methanol 
• 3848-41-7 4-nitrophenyl (4-chlorophenyl)carbamate 

Downstream Products

• 82744-94-3 3-(4-Chloro-phenyl)-1,1-diisobutyl-urea 
• 106-47-8 4-chloro-aniline 
• 103-71-9 phenyl isocyanate 
• 940-36-3 (4-chloro-phenyl)-carbamic acid methyl ester 
• 7386-21-2 N-(4-chlorophenyl)phthalimide 
• 121449-90-9 1-propyl (4-chlorophenyl)carbamate 
• 2032-24-8 N,N'-di(p-chlorophenyl)formamidine 
• 838-98-2 bis-(4-chloro-phenyl)-carbodiimide 
• 1448523-77-0 (Z)-4-chloro-N-(3-(4-chlorophenyl)-1-isopropyl-4-phenylimidazolidin-2-ylidene)benzenamine 
• 32772-86-4 N-acetyl-N'-(4-chloro-phenyl)-urea 
• 10149-93-6 1-(4-chlorophenylazo)naphthalen-2-ol 
• 50882-28-5 phenyl N-(4-chlorophenyl)carbamate 
• 55476-05-6 3-(4-chlorophenyl)-5,5-dimethyl-4-methylidene-2-oxooxazolidine 
• 84784-23-6 1,3-bis(4-chlorophenyl)-1-nitrosourea 

Relevant articles and documents

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Catalytic conversions of isocyanate to urea and glucose to levulinate esters over mesoporous α-Ti(HPO4)2·H2O in green media

We have described a facile solvothermal synthesis of a sheet-like α-Ti(HPO4)2·H2O nanomaterial. The material comprises 10.7 nm nanoparticles along with ordered mesopores throughout its hexagonal building blocks. The material possesses a bandgap of 3.86 eV and works as an efficient catalyst for the selective synthesis of ureas from a broad range of isocyanates in the presence of H2O at room temperature with a high product yield (up to 93%) and a TOF value up to 15.25 h-1. The α-Ti(HPO4)2·H2O nanomaterial also catalytically converts glucose to levulinic acid (LA) and subsequently LA to alkyl levulinates in the presence of different alcohols with a high product yield (up to 98%) and a TOF value up to 43.00 h-1. Furthermore, all the reactions are performed under green and facile catalytic conditions without using any hazardous solvent. The α-Ti(HPO4)2·H2O catalyst material was also found to be reusable for manifold cycles for all the reactions, keeping its catalytic efficiency along with its structural and morphological characteristics unaffected, supporting its industrial relevance.

Searching for small molecules as antibacterials: Non-cytotoxic diarylureas analogues of triclocarban

Triclocarban (TCC), a broad-spectrum lipophilic antimicrobial agent, is a diarylurea derivative that has been used for more than 60 years as a major ingredient of toys, clothing, food packaging materials, food industry floors, medical supplies and especially of personal care products, such as soaps, toothpaste and shampoo. In September 2016, the U.S. FDA banned nineteen antimicrobial ingredients, including TCC, in over-the-counter consumer antiseptic wash products, due to their toxicity. Withdrawal of TCC has prompted efforts to search for new antimicrobial compounds. In this paper, we present the synthesis and biological evaluation, as antibiotic and non-cytotoxic agents, of a series of diarylureas, analogues of TCC. These compounds are characterized by an intriguingly simple chemistry and can be easily synthesized. Among the synthesized compounds, 1ab and 1bc emerge as the most interesting compounds as they show the same activity of TCC (MIC = 16 μg/mL) against Staphylococcus aureus, and a higher activity than TCC against Enterococcus faecalis (MIC = 32 μg/mL versus MIC = 64 μg/mL). Moreover, 1ab and 1bc show no cytotoxicity towards the human mammary epithelial cells MCF-10A and embryonic kidney epithelial cells Hek-293, in opposition to TCC, which exhibits a marked cytotoxicity on the same cell lines and shows a good antitumor activity on a panel of cell lines tested.

Amide-assisted rearrangement of hydroxyarylformimidoyl chloride to diarylurea

A novel amide-assisted rearrangement reaction of hydroxybenzimidoyl chloride has been established for the efficient synthesis of 1,3-diphenylurea derivatives. A variety of electronically and sterically different 1,3-diphenylurea derivatives can be obtained in good to excellent yields, and a proposed reaction mechanism is also presented.

Palladium-Catalyzed Aerobic Oxidative Carbonylation of Amines Enables the Synthesis of Unsymmetrical N,N′-Disubstituted Ureas

A ligand-free palladium-catalyzed aerobic oxidative carbonylation of amines for the synthesis of ureas, particular unsymmetrically N,N′-disubstituted ureas, which cannot be accessed by any other palladium-catalyzed oxidative carbonylation of amines to date, is presented. An array of symmetrical and unsymmetrical ureas were straightforwardly synthesized by using inexpensive, readily available, stable, and safe amines with good to excellent yields under a pressure of 1 atm. This novel method employs oxygen as the sole oxidant and offers an attractive alternative to transition-metal-based oxidant systems.