22751-75-3

Upstream product

• 98-88-4 benzoyl chloride 
• 622-16-2 1,3-Diphenylcarbodiimide 
• 622-15-1 (E)-N,N'-diphenylformimidamide 

Downstream Products

• 93-98-1 N-phenyl benzoyl amide 
• 62-53-3 aniline 
• 103-84-4 Acetanilid 
• 65-85-0 benzoic acid 
• 103-70-8 Formanilid 

Relevant academic research and scientific papers

N-acyl- and N-sulfonylformamidines from cyanamides and carbodiimides by hydroalumination and subsequent treatment with electrophiles

Hydroalumination of cyanamides 1 with di(isobutyl)aluminium hydride affords intermediate compounds 3, which have dimeric structures in the solid state with four-membered Al2N2 heterocycles and exocyclic N=C double bonds. The reactions of 3 with acyl chlorides yield N′,N′- disubstituted N-acylformamidines 5, whereas reaction with sulfonyl chlorides give the corresponding N-sulfonylformamidines 7. In contrast, carbodiimides 8 react with dialkylaluminium hydrides R2AlH (R = tBu, iBu) to give compounds 9 in which one C=N bond of the carbodiimide is reduced to form an amidinate ligand and a second molecule of the hydride is coordinated through an Al-N and an Al-H-Al bond. Treatment of 9 with acyl chlorides yields N,N′-disubstituted N-acylformamidines 10, whereas reaction with sulfonyl chlorides gives the corresponding N-sulfonylformamidines 11. In a simple one-pot procedure cyanamides are converted into N′,N′-disubstituted N-acyl- or N-sulfonylformamidines by hydroalumination and subsequent treatment with acyl- or sulfonyl chlorides. Carbodiimides react similarly, forming N,N′-disubstituted N-acyl- and N-sulfonylformamidines. The intermediate aluminium compounds and several products were characterised, including by X-ray crystallography. Copyright

Facile synthesis of 4-acylamino and 4-sulphonamido β-lactams

The cycloaddition reaction of trisubstituted amidines (7a-f) with acid chlorides in presence of triethylamine gave 4-acylamino and 4-sulphonamido-trans-β-lactams (9a-h) in very good yields. Similarly N,N'-diarylamidines (5a-d) on reaction with 2 equiv. of acid chlorides (8a,b) gave 4-acylamino-trans-β-lactams (10a-e) via in situ generated acylamidines followed by cycloaddition reaction. (C) 2000 Elsevier Science Ltd.