The palladium-catalyzed N-demethylation of the
opioid alkaloids oxymorphone 3,14-diacetate and 14-hydroxymorphinone
3,14-diacetate to their nor-derivatives with oxygen as the terminal
oxidant has been investigated. Palladium(II) acetate forms colloidal
palladium(0) particles upon heating in N,N-dimethylacetamide.
The palladium(0) particles are effective catalysts for the aerobic N-demethylation of these opiate alkaloids. Demethylation
of 14-hydroxymorphinone 3,14-diacetate with pure oxygen as oxidant
in a continuous flow reactor provided the demethylated product with
excellent selectivity after residence times of only 10–20 min
with 2.5–5 mol % palladium acetate as catalyst on a laboratory
scale. Scale-up of the oxidation in a 100 mL flow reactor (combination
of FlowPlate A6 and coiled tube to enhance the gas–liquid mass
transfer), hydrogenation in a packed bed reactor, and subsequent hydrolysis
afforded the desired noroxymorphone in high quality and good yield
on a kg scale. The reaction sequence consumes only oxygen, hydrogen,
and water as stoichiometric reagents.