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Upstream product

• 4141-08-6 2-Amino-N-methylbenzamid 
• 7341-24-4 2-methylbenzyl mercaptan 
• 609-67-6 2-Iodobenzoyl chloride 
• 88-67-5 2-Iodobenzoic acid 
• 529-19-1 2-Methylbenzonitrile 
• 58084-22-3 2-iodo-N-methyl-benzamide 
• 95-47-6 o-xylene 
• 529-20-4 2-methylphenyl aldehyde 

Relevant academic research and scientific papers

α-Keto Acids as Triggers and Partners for the Synthesis of Quinazolinones, Quinoxalinones, Benzooxazinones, and Benzothiazoles in Water

A general and efficient method for the synthesis of quinazolinones, quinoxalinones, benzooxazinones, and benzothiazoles from the reactions of α-keto acids with 2-aminobenzamides, benzene-1,2-diamines, 2-aminophenols, and 2-aminobenzenethiols, respectively, is described. The reactions were conducted under catalyst-free conditions, using water as the sole solvent with no additive required, and successfully applied to the synthesis of sildenafil. More importantly, these reactions can be conducted on a mass scale, and the products can be easily purified through filtration and washing with ethanol (or crystallized).

An efficient transition-metal-free route to quinazolin-4(3H)-onesvia2-aminobenzamides and thiols

An efficient approach to quinazolin-4(3H)-ones was developed by a one-pot intermolecular annulation reaction ofo-amino benzamides and thiols. This method has the features of good functional group tolerance, being transition metal and external oxidant free, and easy operation. Varieties of 2-aryl (heteroaryl) quinazolin-4(3H)-one, 2-phenyl-pyrido[2,3-d]pyrimidin-4(3H)-one and 3-phenyl-2H-1,2,4-benzo thiadiazine-1,1-dioxide derivatives were obtained with a yield of up to 98%. The control experiment revealed that the thiol substrate could promote the dehydroaromatization step.

KOtBu-BF3.OEt2 mediated synthesis of quinazolin-4(3H)-ones from 2-substituted amides with nitriles and aldehydes

KOtBu-BF3.OEt2 mediated synthesis of quinazolin-4(3H)-ones from 2-substituted amides with nitriles and aldehydes have been developed. In this protocol, a variety of nitriles as well as aldehydes react with 2-substituted benzamides to corresponding quinazolin-4(3H)-ones products in good to moderate yields, via the cleavage of C-X and C-N bonds and the formation of double C-N bonds simultaneously, in presence of potassium tert-butoxide.

Synthesis of 2-aryl quinazolinones: Via iron-catalyzed cross-dehydrogenative coupling (CDC) between N-H and C-H bonds

Herein, we describe the direct synthesis of quinazolinones via cross-dehydrogenative coupling between methyl arenes and anthranilamides. The C-H functionalization of the benzylic sp3 carbon is achieved by di-t-butyl peroxide under air, and the subsequent amination-aerobic oxidation process completes the annulation process. Iron catalyzed the whole reaction process and various kinds of functional groups were tolerated under the reaction conditions, providing 31 examples of 2-aryl quinazolinones using methyl arene derivatives in yields of 57-95percent. The synthetic potential has been demonstrated by the additional synthesis of aryl-containing heterocycles. This journal is

Sulfonic acid ionic liquid catalyzing controlled synthesis method for dihydro-quinazolinone and quinazolinone derivatives

The invention discloses a sulfonic acid ionic liquid catalyzing controlled synthesis method for dihydro-quinazolinone and quinazolinone derivatives. The dihydro-quinazolinone and quinazolinone derivatives are controllably prepared through a cascade reaction of anthranilamide or derivatives thereof and an aldehyde compound by taking sulfonic acid ionic liquid as a catalyst. Under the set catalytic reaction condition, the conversion rate of raw materials reaches up to 99%, and the yield of dihydro-quinazolinone and the yield of quinazolinone both can reach 95%. Compared with the prior art, the green solvent-ionic liquid is taken as the catalyst, no additional oxidizing agent or heavy metal catalyst is needed, the advantages that the reaction conditions are mild, environmental friendliness is achieved, the reaction selectivity and the product yield are high, controllable synthesis is achieved, and the catalyst can be recycled and reused conveniently are achieved, and the novel method is friendly to environment and efficient in synthesis.