Abstract EN:

This thesis describes the synthesis, characterisation and properties of phosphorus containing ligands built on a calix[4]arene scaffold. The first chapter describes the synthesis of bulky, monodentate phosphites. Reaction of pcl3/net3 with p-tert-butyl-calix[4]-(oh)3-or, in which r contains an auxillary o-donor (r = -ch2p(o)ph2, -ch2co2et, -ch2c(o)net2, -ch2ch2ome) afforded the expected conical calixarenes in which the p atom bridges three of the phenolic oxygen atoms. The thus formed phosphites are remarkably stable towards aqueous naoh. When reacted with transition metal ions, they form either p-monodentate or large p,o-chelate complexes involving the oxygen atom of the r group. The four ligands were assessed in the rhodium-catalysed hydroformylation of octene. The l/b ratios lie in the range 1. 4–3. 6, the highest linear aldehyde selectivity being observed with r = -ch2co2et. The second chapter deals with 6 calixarenes distally-substituted at the lower rim by two px2 groups (x = oph, ph), the other two oxygen atoms of the calixarene platform being equipped with various substituents, r1 = propyl, r2 = ch2co2et, r3 = co2cholesteryl. Reaction of the di-p ligands with transition metals results in the formation of chelate complexes, provided the reaction is carried out at high dilution. All ligands, when mixed with [rh(acac)co)2], catalyse the hydroformylation of octene and styrene. In the hydroformylation of octene, the linear aldehyde selectivities observed with the phosphites which contain r2 or r3 are significantly higher (l/b = ca. 10) than those obtained with pph3. In styrene hydroformylation, all ligands result in the formation of unusually high amounts of the linear aldehyde, the b/l ratios being close to 65:35. The final chapter describes the preparation of the diquinone obtained by oxidation of the proximally phosphorylated calixarene 1,2-(ph2p(o)ch2)2-calix[4]arene-(oh)2. As shown by an x-ray diffraction study, this calixarene adopts a partial-cone conformation.