Insertion of a Carbodiimide into the Ln−N σ-Bond of Organolanthanide Complexes. Isomerization and Rearrangement of Organolanthanides Containing Guanidinate Ligands

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Abstract

The reaction of (C5H5)YCl2(THF)3 with LiNiPr2 and subsequently with 2 equiv of N,N‘-diisopropylcarbodiimide (iPrNCNiPr) in THF gave the organoyttrium guanidinates Y[iPrNC(NiPr2)NiPr]3 (1) and (C5H5)2Y[iPrNC(NiPr2)NiPr] (2), which may be rationalized by the rearrangement reaction of the diinsertion product (C5H5)Y[iPrNC(NiPr2)NiPr]2. Treatment of iPrNCNiPr with lanthanocene primary amides [(C5H5)2LnNHR]2 (R = tBu, Ln = Yb, Er, Dy, Y; R = Ph, Ln = Yb) gave the unexpected products (C5H5)2Yb[RNC(NHiPr)NiPr] (R = tBu, Ln = Yb (3), Er (4), Dy (5), Y(6); R = Ph, Ln = Yb (7)), indicating that a novel isomerization reaction involving a 1,3-hydrogen shift takes place along with the insertion of carbodiimide into the Ln−N σ-bond, which provides an efficient synthesis of organolanthanide complexes with asymmetrical guanidinate ligands. All these complexes were characterized by elemental analysis and spectroscopic properties. The structures of complexes 1−5 and 7 were also determined by X-ray diffraction analysis.

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