Patrick Renner scite author profile

Patrick Renner

5Publications

34Citation Statements Received

81Citation Statements Given

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Heidelberg University, Institut de Chimie

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C3-Chiral Tripodal Amido Complexes

Gade¹,

Renner²,

Memmler³

et al. 2001

Chem. Eur. J.

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A comprehensive study into the coordination chemistry of two C3-chiral tripodal amido ligands has been carried out. The amido ligands contain a trisilylmethane backbone and chiral peripheral substituents. The amine precursors. HC(SiMe2NH[(S)-1-phenylethyl]]3 (1) and HC[SiMe2NH[(R)-1-indanyl]]3 (2) were found to be in equilibrium in solution with the cyclic diamines HC[SiMe2N[(S)-1-phenylethyl]2](SiMe2NH-[(S)-1-phenylethyl]] (3) and HC[SiMe2NH[(R)-1-indanyl]][SiMe2NH[(R)-1-indanyl]) (4), which are generated upon ejection of one molecule of the chiral primary amine. Reaction of these equilibrium mixtures with three molar equivalents of butyllithium instantaneously gave the trilithium triamides HC[SiMe2N(Li)[(S)-1-phenylethyl]]3 (5) and HC[SiMe2N(Li)[(R)-1-indanyl]]3 (6), both of which were characterised by an X-ray diffraction study. Both lithium compounds possess a central heteroadamantane core, in which the two-coordinate Li atoms are additionally weakly solvated by the three aryl groups of the chiral peripheral substituents, the Li-C contacts being in the range of 2.65-2.73 A. Reaction of 5 and 6 with [TiCl4(thf)2] and ZrCl4 gave the corresponding amido complexes [TiCl-[HC[SiMe2N[(S)-1-phenylethyl]]3]] (7), [TiCl(HC[SiMe2N[(R)-1-indanyl]]3]] (8), [ZrCl[HC[SiMe2N[(S)-1-phenylethyl]]3]] (9) and [ZrCl[HC[SiMe2N[(R)-1-indanyl]]3]] (10), respectively. Of these, compound 7 was structurally characterised by X-ray structure analysis and was shown to possess a C3-symmetrical arrangement of the tripod ligand. The chiral anionic dinuclear complex [Li-(OEt2)4][Zr2Cl3[HC[SiMe2N[(S)-1-phenylethyl]]3]2] (11) was isolated from reaction mixtures leading to 9. An X-ray diffraction study established its dimeric structure, in which the chiral amido ligands cap the two metal centres, which are linked through three symmetrically arranged, bridging chloro ligands. Reaction of 9 and 10 with a series of alkyl Grignard and alkyllithium reagents yielded the corresponding alkylzirconium complexes. X-ray structure analyses of [Zr(CH3)[HC[SiMe2N[(S)-1-phenylethyl]]3]] (12) and [Zr(CH3)-[HC[SiMe2N)[(R)-1-indanyl]]3]] (20) established their detailed molecular arrangements. While the reaction of 12 with the aryl ketones PhC(O)R (R = CH = CHPh, iPr, Et) gave the corresponding C-O insertion products, which contain an additional chiral centre in the alkoxy group, with low stereoselectivity (0-40% de). The corresponding conversions with several aryl aldehydes yielded the alkoxo complexes with high stereoselectivity. Upon hydrolysis, the chiral alcohols were isolated and shown to have enantiomeric excesses between 68 and 82%. High stereodiscrimination was also observed in the insertion reactions of several chiral ketones and aldehydes. However, this was shown to originate primarily from the chirality of the substrate. In analogous experiments with carbonyl compounds, the ethyl- and butyl-zirconium analogues of 12 did not undergo CO insertion into the metal-alkyl bond. Instead, beta-elimination and formal insertion into the metal-hydride bond occurre...

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The tendency of tripodal amidozirconium and hafnium complexes to form hexacoordinate structures: alkali metal halide cages versus solvent adducts

Renner¹,

Galka²,

Memmler³

et al. 1999

Journal of Organometallic Chemistry

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Chiral, Enantiopure Aluminum(III) and Titanium(IV) Azatranes

et al. 2006

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AlIII and TiIV complexes of C3‐symmetric tetradentate trisamidoamine ligands with trigonal bipyramidal coordination geometry, containing chlorine or dialkylamido groups, or with a free coordination site in the apical position, have been synthesised by salt metathesis and amine elimination. Products with threefold symmetry were generally obtained for tetravalent titanium, whereas for the aluminium complexes either asymmetric structures with two of the three podand arms taking part in coordination to the metal or symmetric arrangements possessing the full threefold symmetry were formed depending on the steric properties of the ligands. (© Wiley‐VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2006)

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Generating a New Chiral Ligand System for High-Valent Early Transition Metals — Synthesis and Structural Characterization ofC3-Symmetrical Tripodal Alkyl/Silyl Amido Complexes

Renner

Galka

Gade

et al. 2001

Eur. J. Inorg. Chem.

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Keywords: Lithium / Amides / Chirality / Tripodal ligands / ZirconiumThe novel C 3 -chiral tripodal amine HC{SiMe 2 NH[(S)-3,3-dimethyl-2-butyl]} 3 (1) and its trilithium triamido derivative [HC{SiMe 2 N(Li)[(S)-3,3-dimethyl-2-butyl]} 3 ] (2) have been synthesized and characterized by X-ray diffraction. The lithium reagent was used for the synthesis of a C 3 -chiral amidozirconium complex [HC{SiMe 2 N[(S)-3,3-dimethyl-2-butyl]} 3 ZrCl] (3); the preparation of the analogous titanium compound was precluded by the redox activity of the metal.

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A C3-chiral lithium triamidostannate(II) containing a SnLi bond

2002

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Patrick Renner

C3-Chiral Tripodal Amido Complexes

The tendency of tripodal amidozirconium and hafnium complexes to form hexacoordinate structures: alkali metal halide cages versus solvent adducts

Chiral, Enantiopure Aluminum(III) and Titanium(IV) Azatranes

Generating a New Chiral Ligand System for High-Valent Early Transition Metals — Synthesis and Structural Characterization ofC3-Symmetrical Tripodal Alkyl/Silyl Amido Complexes

A C3-chiral lithium triamidostannate(II) containing a SnLi bond

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