Metal hydrides are fundamental components in a wide range of stoichiometric and catalytic reactions. Their importance in modern inorganic and organic chemistry cannot be overemphasized. Rare-earth (Group 3 and lanthanide) hydrides are among the most active metal-hydride complexes. Together with their alkyl analogues, metal-hydride complexes of the rare-earth metals have occupied an especially important position in the development of the organometallic chemistry of the rare-earth elements. Generally, cationic complexes differ in their structure and reactivity from their neutral analogues. However, although a large number of metal-hydride complexes of the rare-earth metals have been synthesized and structurally characterized, [1] cationic complexes of this type have not been reported previously.We recently reported the synthesis and hydrogenation reactions of a new class of polynuclear rare-earth polyhydrido complexes exemplified by [Y 4 (C 5 Me 4 SiMe 3 ) 4 H 8 (thf) n ] (1 a: n = 0, 1 b: n = 1, 1 c: n = 2). [2,3] In view of the unique reactivity of these hydride clusters [2b-e,g] and the excellent olefinpolymerization activity of the related cationic rare-earthalkyl complexes, [4,5] we became interested in the cationic hydrido species generated from these rare-earth-hydride clusters.Herein, we report the synthesis, structural characterization, and olefin-polymerization catalysis of the cationic hydride complexes obtained from 1 a-c (Scheme 1) and related rare-earth-hydride clusters. These cationic polyhydrido complexes not only are the first cationic rare-earthhydride complexes but also show excellent regio-and stereoselectivity for the polymerization of 1,3-cyclohexadiene (CHD), which afforded, for the first time, soluble crystalline cis-1,4-linked poly(CHD) (1,4 selectivity: 100 %; cis selectivity: 99 %). For comparison, the reaction of the neutral hydride cluster, 1 b, with CHD is also described. This reaction leads to the formation of a structurally well-defined CHD insertion product instead of the polymerization of CHD. Various metal catalysts and initiators were reported previously for the polymerization of CHD, but most yielded a mixture of 1,4-and 1,2-poly(CHD) [6][7][8][9][10] or insoluble polymers, [10,11] and none was reported to produce pure soluble crystalline cis-1,4-linked poly(CHD).Reaction of the thf-free octahydrido yttrium cluster 1 a ] with one equivalent of [Ph 3 C][B(C 6 F 5 ) 4 ] in chlorobenzene or toluene at 25 8C gave the cationic heptahydrido complex 2 a and Ph 3 CH (Scheme 1). In contrast to the neutral complex 1 a, which shows a good solubility in most organic solvents, the cationic complex 2 a was only slightly soluble in benzene and toluene, and almost insoluble in hexane. Recrystallization of 2 a from chlorobenzene/hexane afforded colorless single Scheme 1. Synthesis of cationic yttrium-hydride clusters.
