Synthesis, reactivity, and metal complexes of fluorous triarylphosphines of the formula P(p-C6H4(CH2)(3)(CF2)(n-1)CF3)(3) (n=6, 8, 10)

Reactions of p-BrC6H4CH=O with Wittig reagents derived from [Ph3PCH2CH2Rfn] I-+(-) (R-fn = (CF2)(n-1)CF3; n = 6 (6a), 8 (6b), 10 (6c)) give p-BTC6H4CH= CHCH2Rfn (86-93%), which are treated with H-2 and Wilkinson's catalyst to y ield p-BrC6H4(CH2)(3)R-fn (91-94%). Reactions with n-BuLi and PCl3 (0.33 eq uiv) give, after workup, mixtures of the title compounds (9a-c) and the cor responding phosphine oxides (10a-c). Treatment with H2O2 gives pure 10 (a/b /c 88/57/24%), which are reduced with Cl3SiH/Et3N to 9 (a/b/c 69/82/43%). F luorous phase affinities increase with perfluoroalkyl chain length, as quan tified by CF3C6F11/toluene partition coefficients (9a, 19.5:80.5; 9b, 66.6: 33.4). Reaction of 9b, [Ir(COD)(mu -Cl)](2), and CO gives trans-Ir(CO)(Cl)[ P(p-C6H4(CH2)(3)R-f8)(3)](2) (76%). The IR vco value is only slightly great er than that of Vaska's complex (1958 vs 1952 cm(-1)), indicating nearly ne gligible inductive effects of the perfluoroalkyl groups. Reaction of 9b and [Rh(COD)(mu -Cl)](2) yields Rh[P(p-C6H4-(CH2)(3)R-f8)(3)](3) (Cl) (82-93%) which gives small equilibrium amounts of [Rh[P(p-C6H4(CH2)(3)R-f8)(3)](2)C u-Cl)](2) and 9b in solution, and catalyzes the hydrogenation of alkenes un der both biphasic (CF3C6F11/toluene) and monophasic (CF3C6H5) conditions.