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Differing coordination environments in transition metal derivatives of 1,8-bis(silylamido)naphthalene ligands

Blake, Alexander J., Gillibrand, Nicola L., Moxey, Graeme J. and Kays, Deborah L.

2009. Differing coordination environments in transition metal derivatives of 1,8-bis(silylamido)naphthalene ligands. Inorganic Chemistry 48 (22) , pp. 10837-10844. 10.1021/ic901745v

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Official URL: https://doi.org/10.1021/ic901745v

Abstract

Four low-coordinate transition metal amido complexes featuring sterically demanding 1,8-bis(silylamido)naphthalene ligands are reported. Reaction of one molar equivalent of 1,8-C10H6(NLiSiMe3)2 with ZnCl2 yields the structurally authenticated dimer [1,8-C10H6(NSiMe3)2Zn]2 (1), where the 1,8-bis(silylamido)naphthalene moiety is acting as both a chelating and bridging ligand. The effect on the resulting transition metal complexes of increasing the steric demands of the ligand was investigated, using the triisopropylsilyl-substituted ligand 1,8-C10H6(NSiiPr3)2. Reaction of one molar equivalent of 1,8-C10H6(NLiSiiPr3)2 with ZnCl2 or FeCl2(THF)1.5 yields 1,8-C10H6(NSiiPr3)2M(μ-Cl)Li(THF)3 (M = Zn, 2; M = Fe, 3), respectively; the coordination of the ClLi(THF)3 moiety to the metal center in these compounds is a rare structural motif in the coordination chemistry of the d-block elements. Analogous reaction of 1,8-C10H6(NLiSiiPr3)2 with MnCl2 affords the mixed-metal Li−Mn−amido complex 1,8-C10H6(NSiiPr3)2Li(THF)MnCl(THF) (4) which features an unusual LiMnN2 core.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Chemistry
Publisher:	American Chemical Society
ISSN:	0020-1669
Last Modified:	12 Jul 2024 09:30
URI:	https://orca.cardiff.ac.uk/id/eprint/170284

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