Cyclization reactions, metal polymerization unit

More recently, a new class of polymers has been synthesized involving cyclization reactions. This method of polymerization ealled metallacycliza-tion has led to the formation of polymers containing metal units linked to aromatic units. Thus, the reaction of [ ii C5H4(C6Hi3) - Ru(COD)Br] with 4,4 -diethynylbiphenyl leads to an air-sensitive, thermally imstable polymeric product by a metallacyclization reaction (Fig. 8.47) [72]. This ruthenium polymer undergoes a reversible reduction. It has also been shown that such reduced ruthenium centers interact with each other in a ferromagnetic manner. 

Anionic polymerization of o-divinylbenzene was examined by Aso et al. [294]. The authors used n-BuLi, phenyllithium, and naphthalene/alkali metal in THF, ether, dioxane, and toluene at temperatures between —78 and 20 °C. Generally, it was found that as with radical and cationic initiators, a competition between cyclopolymerization and conventional 1,2-polymerization occurs, with the tendency for cyclization to be lower than with the other mechanisms. The polymerization initiated with the lithium organic compounds resulted in polymers with up to 92% double bonds per monomer unit (THF, 20 °C). Polymerization with lithium, potassium, and sodium naphthalene also showed a rather weak tendency for cyclization. In THF at 0°C and 20 °C the cyclization tendency increased with decreasing ionic radii of the counter cation, while in dioxane the reverse effect was observed, and in ether still another dependence was found (K > Li > Na). Nitadori and Tsuruta [299] used lithium diisopropyl amide in THF at 20 °C to polymerize m- and p-divinylbenzene. The authors obtained soluble products with molecular weight up to 100 000 g/mol (GPC) and showed the polymers to contain pendant double bonds by IR and NMR spectra. It seemed to be important that a rather large excess of free amine (the initiator was formed by reaction of -BuLi with excess diisopropylamine) was present in the polymerization mixture. In later studies [300,301] a closer view was taken on polymerization kinetics and the steric course of the polymerization reaction. 

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