Rhodium catalyzed hydroformylation of β-pinene and camphene:: effect of phosphorous ligands and reaction conditions on diastereoselectivity

The effect of phosphorus ligands on the rhodium catalyzed hydroformylation of beta-pinene and camphene has been studied. In unmodified systems, beta-pinene undergoes a fast isomerization to alpha-pinene. At longer reaction times and higher temperatures, the isomerization equilibrium is shifted resulting in the 80% chemoselectivity for beta-pinene hydroformylation products (97% trans). The addition of various diphosphines, phosphines or phosphites improves the chemoselectivity and shifts the hydroformylation towards cis aldehyde 3a. Both the rate and diastereoselectivity of the hydroformylation of beta-pinene are largely influenced by the basicity of auxiliary ligands, but surprisingly no correlation between their steric characteristics and the diastereoselectivity of the catalytic system has been revealed for the ligands with cone angles of 128-165degrees. The systems with more basic ligands show lower activities, higher diastereoselectivities and usually higher chemoselectivities in the beta-pinene hydroformylation. Camphene gives linear aldehyde 6, with virtually 100% regio- and chemoselectivity in both modified and unmodified systems. The addition of phosphorus ligands favors the formation of endo isomer 6b:6a/6b approximate to 1/1.5, whereas the ratio is ca. 1/1 in unmodified systems. Neither steric nor electronic parameters of the ligands have been found to influence significantly the diastereoselectivity of the camphene hydroformylation. (C) 2003 Elsevier Science B.V. All rights reserved.