THERMAL RING-OPENING POLYMERIZATION (ROP) OF STRAINED, RING-TILTED, PHOSPHORUS-BRIDGED [1]FERROCENOPHANES - SYNTHESIS OF POLY(FERROCENYLPHOSPHINES) AND POLY(FERROCENYLPHOSPHINE SULFIDES)

A series of phosphorus(III)-bridged [1]ferrocenophanes Fe[(eta-C(5)H(3 )R)(eta-C(5)H(3)R')]PX (X = Ph, R = R' = H (3); X = Cl, R = R' = H (4) ; X = Ph, R = H, R' = (II)Bu (5); X = Ph, R = R' = SiMe(3) (6)) have b een synthesized via the reaction of Fe[(eta-C(5)H(3)R'Li)(eta-C(5)H(3) R'Li)]. nTMEDA with PXCl(2) (X = Cl, Ph). The reaction of 6 with an ex cess of elemental sulfur resulted in the quantitative formation of the phosphorus(V)-bridged species Fe[eta-C(5)H(3)SiMe(3)]P-2(S)Ph (7). Th e new compounds 4-7 were characterized by multinuclear NMR, by mass sp ectrometry and, in the cases of 4, 6, and a, by single-crystal X-ray d iffraction and elemental analysis. Ring-tilt angles (alpha) for 4 and 6 were found to be typical of phosphorus(III)-bridged [1]ferrocenophan es (4, 27.0(6)degrees; 6, 27.5(6)degrees) whereas in the case of the p hosphorus(V)-bridged species 7 the tilt angle was slightly less (alpha = 25.3(3)degrees). The thermal ring-opening polymerization of 3, 5, a nd 6 at 120-250 degrees C yielded the poly(ferrocenylphosphines) 8-10, respectively. These materials were characterized by multinuclear NMR and by elemental analysis. The molecular weight of the trimethylsilyl- substituted polymer 10 was determined by GPC in THF versus polystyrene standards to be M(w) = 66 000, PDI = 1.98, whereas 8 and 9 failed to elute from the GPC column. The phosphorus(V)-bridged species 7 also un derwent thermal ring-opening polymerization to yield the poly(ferrocen ylphosphine sulfide) 13 which was analyzed by GPC (M(w) = 22 000, PDI = 1.24); thermally-induced elimination of S(SiMe(3))(2) from the ring- opened polymer was identified as a side reaction. The macromolecular r eactions of 8-10 with elemental sulfur yielded the poly(ferrocenylphos phine sulfides) 11-13. These were structurally characterized by multin uclear NMR and elemental analysis and their molecular distributions we re analyzed by GPC (M(w) = 18 000-65 000, PDI = 1.5-2.3).