Abstract:
Salicylaldehyde, unlike benzaldehyde, sets the Kabachnik-Fields reaction on the way of initial imine formation. This is explained by the thermodynamic instability of hydroxyphosphonates derived from salicyalaldehyde, which blocks the second possible Kabachnik-Fields reaction route involving intermediate hydroxyphosphonate formation. The kinetics and mechanism of addition of dialkyl hydrogen phosphites at the C=N bond of the intermediate N-substituted imines (the final stage of the "imine" Kabachnik-Fields reaction) are well consistent with the earlier proposed unified reaction mechanism.