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• W2017056241 abstract "2,4,5-Tri(t-butyl)-1,3-diphospholyl sodium salt (2a) and 3,5-di(t-butyl)-1,2,4-triphospholyl sodium salt (3a) react with ZrCl4 and CpZrCl3 to form (η5-2,4,5-tri(t-butyl)-1,3-diphospholyl)ZrCl3 (4), Cp(η5-2,4,5-tri(t-butyl)-1,3-diphospholyl)ZrCl2 (5), and Cp(η5-3,5-di(t-butyl)-1,2,4-triphospholyl)ZrCl2 (6) in the complete absence of water, respectively. Surprisingly, bent sandwich complex 6 exhibits the NMR spectroscopic characteristics of a hindered ring ligand rotation but the cyclopentadienyl ligand of 5 rotates freely in the NMR time scale in spite of the superior space demand of its 2,4,5-tri(t-butyl)-1,3-diphospholyl ligand. This contradiction is discussed on the basis of an attractive interligand P–C interaction between homo- and heterocyclic π-ligands, which is stronger for 6. Water even in trace amounts present in the reaction mixture changes the course of the reactions completely. No zirconium π-complexes are accessible this way, but only oligo- or polycyclic organophosphorus compounds. Compound 3a and ZrCl4 form the asymmetric tricyclic P6(t-BuC)4H2 isomer 8 with two PC double bonds as a dimer of 1,2,4-triphosphol. It is accompanied by small amounts of HCl addition product 9, where one of the PC double bonds is eliminated. Compound 8 contains six, and 9 eight stereogenic centers, but both form one pair of enantiomers each only. A single stereoisomer of P6(t-BuC)4H2 cage 10 is formed if (1-trimethylstannyl)-3,5-di(t-butyl)-1,2,4-triphosphol 3b is used as the P3(t-BuC)2 source in combination with Cp∗ZrCl3 in the presence of trace amounts of water. Compound 10 is a meso-compound, which is composed by dimerization of either two homochiral units of (R)-3,5-di(t-butyl)-1,2,4-triphosphol 3cR or by two units of its S-enantiomer 3cS. No trace of cyclic addition products has been identified, which would represent the heterochiral combination of enantiomers 3cR + 3cS. P2- and P3-zirconocene dichloride derivatives 5 and 6 have been tested as Ziegler–Natta alkene oligomerization catalysts. Both are catalytically active with 1-hexene as the substrate, but cannot compete with the activity of the phosphorus-free original catalyst Cp2ZrCl2." @default.
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• W2017056241 date "2009-04-01" @default.
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• W2017056241 title "Diphospholyl and triphospholyl zirconium π-complexes: Ziegler–Natta oligomerization catalysts and reactive intermediates in P–C cage formation by hydrolysis" @default.
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• W2017056241 doi "https://doi.org/10.1016/j.jorganchem.2008.12.026" @default.
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