Titanium(iv) enolates of cyclic ketones – stereoselective addition of cyclododecanone to aromatic aldehydes

Abstract

Titanium(IV) enolates of cyclododecanone (CDD) were investigated as convenient CH-acidic units for stereoselective aldol additions to various benzaldehydes leading to β-hydroxy carbonyl compounds. Aldol reactions were carried out at low temperatures, below −40 °C, which allowed minimizing the processes of dehydration and formation of enones. In contrast to alkali metal enolates that produced mainly anti-aldols, titanium(IV) enolates of CDD tend to favor syn-stereoselectivity. Studies showed that the stereoselectivity of aldolization depended on the size and location of substituents in the aromatic ring of benzaldehydes used. The strongest effect was exerted by substituents in ortho and meta positions, while para-substituted benzaldehydes were characterized by stereoselectivity comparable to that of unsubstituted benzaldehydes. The presented work is so far the only method of synthesizing syn aldols from cyclododecanone in a one-step reaction.