Kinetics and mechanisms of hydrolysis of 1,4-benzodiazepines II: Oxazepam and diazepam

A sensitive fluorescence--TLC densitometric procedure was developed for the specific determination of diazepam (I) and its two metabolites, desmethyldiazepam (II) and oxazepam (III), in serum. After extraction from serum with benzene, the compounds were separated by TLC and converted with a sulfuric

## Abstract The kinetics of hydrolysis of Cu(II)‐salicylamide complex have been studied in sodium hydroxide solution (0.5 to 2.5M). The observed pseudo‐first‐order rate constants vary according to the empirical equation 1/𝓀~obs~ = __B__~1~ + __B__~2~/[ŌH] up to 2.0 M sodium hydroxide concentration.

A kinetic study of base-catalyzed hydrolysis of Cu(I1)-malonamide complex has been performed in sodium hydroxide solution (0.2-1.25M). The reaction follows an irreversible firstorder consecutive path: The variation of kl\* and kZhs with alkali concentration was found to be in good agreement with th

The kinetics of the hydrolysis of imidacloprid were studied at diþ erent pH values and under various temperatures. Imidacloprid was found to be stable in acidic and neutral water, but readily hydrolysed in alkaline water. The main hydrolysis product was found to be 1-[ (6-chloro-3pyridinyl)methyl ]