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The liquid-phase oxidation of ethylamine with hydrogen peroxide was studied over tungsten-doped zeolites to develop a clean and simple route for producing acetaldehyde oxime. The investigations were firstly performed over W/MOR, where the coordinated state as well as the acidity of the W species were characterized. The reaction parameters, including H_2O_2 amount, solvent,temperature, tungsten content as well as catalyst amount, governed the activity and oxime selectivity. Under optimized reaction conditions, W/MOR showed an ethylamine conversion and corresponding oxime selectivity of 18.3% and 88.9%. W/MOR showed a superior performance in comparison to other tungsten-containing zeolites of W/Beta, W/MWW and W/Y. Although W/MOR exhibited lower amine conversion than titanosilicates of TS-1 and Ti-MWW, it gave higher selectivity to the main product of oxime. Moreover, W/MOR proved to be a robust catalyst, exhibiting a stable catalytic performance after being reused at least for 5 times.
The liquid-phase oxidation of ethylamine with hydrogen peroxide was studied over tungsten-doped zeolites to develop a clean and simple route for producing acetaldehyde oxime. The tests were first performed over W / MOR, where the coordinated state as well as the acidity of the W species were characterized. The reaction parameters, including H202 amount, solvent, temperature, tungsten content as well as catalyst amount, governed the activity and oxime selectivity. W / MOR showed an ethylamine conversion and corresponding oxime selectivity of 18.3 % and 88.9%. W / MOR showed a superior performance in comparison to other tungsten-containing zeolites of W / Beta, W / MWW and W / Y. Although W / MOR showed lower amine conversion than titanosilicates of TS- MWW, it gave higher selectivity to the main product of oxime. W / MOR proved to be a robust catalyst, exhibiting a stable catalytic performance after being reused at least for 5 times.