The resistance to hydrolysis of N,N-dimethyl-N-phenylammoniomethanesulfonate and the improbability of a recently-proposed mechanism of hydrolysis of anilinomethanesulfonates

The aqueous cleavage of N-(2-bromoethyl)phthalimide (NBEPH), N-(3-bromopropyl)phth&mide (NBPPH), and N-carbethoxyphthalimide (NCPH) have been studied within the [OH] range of 5 x 10 M to 2 x 10.' M, pH range of 8.82 to 10.62 and 8.06 to 8.66, respective1y:The observed pseudo-first-order rate consta

We recently reported' that acctanilide readily sulphonatcs in solutions of sulphuric acid > 70 per cent I& to form I+acetylsulphanilic acid , and noted that the rate of hydrolysis of this latter compound increased with increasing acidity beyond 80 per cent d= sulphuric acid. Ve have now prepared IG

## Abstract The hydrolysis reaction of __N__,__N__‐dimethyl‐N′‐(2‐oxo‐1, 2‐dihydro‐pyrimidinyl)formamidine (DMPFA), a model compound of the antivirus drug amidine‐3TC (3TC = 2′, 3′‐dideoxy‐3′‐thiacytidine), is investigated by the hybrid density functional theory B3LYP/6‐31+G (d,p) method. The hydro

## Abstract A group of 2‐(__N,N__‐diethylamino)‐4‐aminoquinazoline derivatives have been synthesized in the reaction of __N__^1^,__N__^1^‐diethyl‐__N__^2^‐arylchlorocarboxyamidines with cyanamide in the presence of T1Cl~4~ as a catalyst. Such quinazolines decompose into the corresponding quinazolon