Synthesis and X-ray structure of a borohydrido metallocene of neodymium and its use as pre-catalyst in Nd/Mg dual-component ethylene and isoprene polymerisations

Visseaux, Marc; Chenal, Thomas; Roussel, Pascal; Mortreux, André

doi:10.1016/j.jorganchem.2005.08.036

Cited by 57 publications

(50 citation statements)

References 41 publications

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“…A few precedent structures of this type have been reported in the lanthanides series [18][19][20][21][22]. The Sm-B distances in the cation (2.59(6) and 2.61(3) Å ) and in the anion (2.58(6) and 2.58(2) Å ) of 1, as well as IR data, are compatible with a tridentate Sm-ðg 3 -HÞ 3 B-H mode of bonding, likely distorted however, as already observed [23,24]. A borohydride anionic compound of trivalent uranium, showing very similar distances and angles, was also described.…”

supporting

confidence: 77%

Structural diversity in the borohydrido lanthanides series: First isolation and X-ray crystal structure of ionic

Bonnet

Visseaux

Hafid

et al. 2007

Inorganic Chemistry Communications

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Structural diversity in the borohydrido lanthanides series:First isolation and X-ray crystal structure of ionic ½SmðBH 4 Þ 2 ðTHFÞ 5 þ ½Cp Ã0 SmðBH 4 Þ 3 À AbstractThe reaction of SmðBH 4 Þ 3 ðTHFÞ 3 with a half equivalent of KCp Ã0 ðCp Ã0 ¼ C 5 Me n 4 Pr) affords a compound comprising one Cp Ã0 ligand and three THF molecules per two Sm atoms, ½Cp Ã0 Sm 2 ðBH 4 Þ 5 ðTHFÞ 3 , according to analytical data. Crystals of penta-THF adduct 1, showing the same 1 H NMR spectrum except for the quantity of THF, could be isolated from a solution of half-samarocene Cp Ã0 SmðBH 4 Þ 2 ðTHFÞ (2). X-ray structure determination of 1 revealed an ionic compound ½SmðBH 4 Þ 2 ðTHFÞ 5 þ ½Cp Ã0 SmðBH 4 Þ 3 À with two discrete mononuclear Sm polyhedrons. The expected neutral samarocene Cp Ã0 2 SmðBH 4 ÞðTHFÞ(3) could be obtained from the reaction of SmðBH 4 Þ 3 ðTHFÞ 3 with two equivalents of KCp Ã0 . X-ray structure analysis showed that 3 is a monomeric complex bearing a terminal borohydride ligand. All BH À 4 ligands in 1 and 3 exhibit an g 3 -H 3 BH bonding mode.

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supporting

confidence: 77%

Structural diversity in the borohydrido lanthanides series: First isolation and X-ray crystal structure of ionic

Bonnet

Visseaux

Hafid

et al. 2007

Inorganic Chemistry Communications

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“…[21] In the 1980s Mirsaidov and co-workers developed a more convenient approach starting from LnCl 3 (Ln = La, Ce, Pr, Nd, Sm) and NaBH 4 . [22][23][24] Later on, greater value was given to these original species in the promotion of rare-earth borohydride organometallic chemistry [25][26][27][28] and in their use as efficient catalysts for the (co)polymerization of ethylene, [29][30][31] isoprene, [31][32][33][34][35] styrene, [34,36] and some polar monomers such as lactide, [37][38][39][40][41][42] e-caprolactone, [37][38][39][43][44][45][46][47][48][49][50][51][52] trimethylene carbonate, [52] and methyl methacrylate. [53][54][55][56][57] Also, some rare-earthmetal borohydride derivatives such as metallocenes, [31,46] mono-cyclopentadienyl complexes, …”

Section: }Laa C H T U N G T R E N N U N G (Bh 4 ) 2 a C H T U N G T Rmentioning

confidence: 99%

Bis(phosphinimino)methanide Borohydride Complexes of the Rare‐Earth Elements as Initiators for the Ring‐Opening Polymerization of ε‐Caprolactone: Combined Experimental and Computational Investigations

Jenter

Roesky

Ajellal

et al. 2010

Chemistry A European J

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Rare-earth-metal borohydrides are known to be efficient catalysts for the polymerization of apolar and polar monomers. The bis-borohydrides [{CH(PPh2 NSiMe3)2}La(BH4)2(THF)] and [{CH(PPh2NSiMe3)2}Ln(BH4)2] (Ln = Y, Lu) have been synthesized by two different synthetic routes. The lanthanum and the lutetium complexes were prepared from [Ln(BH4)3(THF)3] and K{CH(PPh2NSiMe3)2}, whereas the yttrium analogue was obtained from in situ prepared [{CH(PPh2NSiMe3)2}YCl2]2 and NaBH4. All new compounds were characterized by standard analytical/spectroscopic techniques, and the solid-state structures were established by single-crystal X-ray diffraction. The ring-opening polymerization (ROP) of ε-caprolactone initiated by [{CH(PPh2NSiMe3)2}La(BH4)2(THF)] and [{CH(PPh2NSiMe3)2}Ln(BH4)2] (Ln = Y, Lu) was studied. At 0 °C the molar mass distributions determined were the narrowest values (M(w)/M(n) = 1.06-1.11) ever obtained for the ROP of ε-caprolactone initiated by rare-earth-metal borohydride species. DFT investigations of the reaction mechanism indicate that this type of complex reacts in an unprecedented manner with the first B-H activation being achieved within two steps. This particularity has been attributed to the metallic fragment based on the natural bond order analysis.

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“…the presence of a MgR 2 co-catalyst was necessary to enable isoprene 10 or ethylene 11 polymerisation.…”

Section: Introductionmentioning

confidence: 99%

Lanthanide borohydrido complexes for MMA polymerization: syndio‐ vs iso‐ stereocontrol

Barbier‐Baudry

Bouyer

Bruno

et al. 2005

Applied Organom Chemis

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Synthesis and X-ray structure of a borohydrido metallocene of neodymium and its use as pre-catalyst in Nd/Mg dual-component ethylene and isoprene polymerisations

Cited by 57 publications

References 41 publications

Structural diversity in the borohydrido lanthanides series: First isolation and X-ray crystal structure of ionic

Structural diversity in the borohydrido lanthanides series: First isolation and X-ray crystal structure of ionic

Bis(phosphinimino)methanide Borohydride Complexes of the Rare‐Earth Elements as Initiators for the Ring‐Opening Polymerization of ε‐Caprolactone: Combined Experimental and Computational Investigations

Lanthanide borohydrido complexes for MMA polymerization: syndio‐ vs iso‐ stereocontrol

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