Salt metathesis for the synthesis of M–Al and M–H–Al bonds

Ian M. Riddlestone; Juan Urbano; Nicholas Phillips; Michael J. Kelly; Dragoslav Vidovic; Joshua I. Bates; Russell Taylor; Simon Aldridge

doi:10.1039/C2DT31974H

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Dalton Transactions

Issue 1, 2013

The international journal for inorganic, organometallic and bioinorganic chemistry

Impact Factor 3.838 48 Issues per Year Indexed in MEDLINE

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Salt metathesis for the synthesis of M–Al and M–H–Al bonds

Ian M. Riddlestone,^a Juan Urbano,^a Nicholas Phillips,^a Michael J. Kelly,^a Dragoslav Vidovic,^a Joshua I. Bates,^a Russell Taylor^b and Simon Aldridge*^a

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Inorganic Chemistry Laboratory, Department of Chemistry, University of Oxford, South Parks Road, Oxford, UK
E-mail: Simon.Aldridge@chem.ox.ac.uk ;
Fax: +44 (0) 1865 272690 ;
Tel: +44 (0) 1865 285201

Hull Research and Technology Centre, BP Chemicals Ltd, DL10, HRTC Saltend, Hull, UK
E-mail: Russell.Taylor@uk.bp.com

Dalton Trans., 2013,42, 249-258

DOI: 10.1039/C2DT31974H
Received 29 Aug 2012, Accepted 02 Oct 2012
First published online 04 Oct 2012

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Salt metathesis has been exploited in the synthesis of M–Al bonds, stabilized by a variety of chelating N-donor substituents at aluminium and including the first examples of such systems featuring ancillary guanidinato frameworks. Importantly, this synthetic approach can be extended to the synthesis of σ-alane complexes through the use of hydride-containing transition metal nucleophiles. Cp′Mn(CO)₂-[H(Cl)Al{(NⁱPr)₂CPh}] synthesized via this route features an alane ligand bound in a more ‘side-on’ fashion than other alane complexes, although DFT calculations imply that the potential energy surface associated with variation in the Mn–H–Al angle is a very soft one.

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Ian M. Riddlestone
Juan Urbano
Nicholas Phillips
Michael J. Kelly
Dragoslav Vidovic
Joshua I. Bates
Russell Taylor
Simon Aldridge

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Salt metathesis for the synthesis of M–Al and M–H–Al bonds

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