Issue 1, 2013
From the journal:

Dalton Transactions

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 Taylorb  and  Simon Aldridge*a  

* Corresponding authors

a 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

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

Abstract

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.

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

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Article information

DOI
https://doi.org/10.1039/C2DT31974H
Article type
Paper
Submitted
29 Aug 2012
Accepted
02 Oct 2012
First published
04 Oct 2012

Dalton Trans., 2013,42, 249-258

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

I. M. Riddlestone, J. Urbano, N. Phillips, M. J. Kelly, D. Vidovic, J. I. Bates, R. Taylor and S. Aldridge, Dalton Trans., 2013, 42, 249 DOI: 10.1039/C2DT31974H

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