Methyl 2-[N-(2′-Pyridylmethyl)carbamyl]pyridine-6-carboxylate: A Precursor for Unsymmetrical Diamide Ligands
Mery Napitupulu A , Geoffrey A. Lawrance A C , Guy J. Clarkson B and Peter Moore BA Discipline of Chemistry, School of Environmental and Life Sciences, University of Newcastle, Callaghan NSW 2308, Australia.
B Department of Chemistry, University of Warwick, Coventry CV4 7AL, UK.
C Corresponding author. Email: Geoffrey.Lawrance@newcastle.edu.au
Australian Journal of Chemistry 59(11) 796-804 https://doi.org/10.1071/CH06310
Submitted: 23 August 2006 Accepted: 11 October 2006 Published: 17 November 2006
Abstract
Methyl 2-[N-(2′-pyridylmethyl)carbamyl]pyridine-6-carboxylate (H1), prepared by reaction of a 1:1 ratio of the methyl diester of pyridine-2,6-dicarboxylic acid and 2-aminomethylpyridine, can form 1:2 M:L complexes by acting as a tridentate ligand, as exemplified by a crystal structure analysis of [CoIII(1)2](ClO4) where each ligand is coordinated by the amido group and its two flanking pyridine groups, with the ester group, a relatively poor donor, remaining unbound. The acid formed upon ester hydrolysis, hydrogen 2-[N-(2′-pyridylmethyl)carbamyl]pyridine-6-carboxylate (H22), has been isolated as the ammonium salt, and forms a 2:2 M:L dimer [CuII2(2)2(OH2)2] where each ligand binds to one copper through the amido group, its flanking pyridine groups, and to the other copper by the carboxylate group, to form a 10-membered ring that incorporates both metals. Onward reaction of the monoester (H1) with a different amine leads to potentially pentadentate ligands centred on a 2,6-disubstituted pyridine but with unsymmetrical arms, as exemplified by synthesis of 2-[N-(2′-pyridylmethyl)carbamyl]-6-[N-(2′-pyridylethyl)carbamyl]pyridine (H23), 2-[N-(2′-pyridylmethyl)carbamyl]-6-[N-(1′-piperidinethyl)carbamyl]pyridine (H24), and 2-[N-(2′-pyridylmethyl)carbamyl]-6-[N-(2′-hydroxypropyl)carbamyl]pyridine (H25). Study of possible helicate formation with the unsymmetrical ligands has been initiated, with the ability to form polymetallic species probed by an ESI-MS study.
Acknowledgments
Support of the EPSRC (UK) for instrument facilities at Warwick and the University of Newcastle for this project is gratefully acknowledged. G.A.L. thanks the Department of Chemistry at the University of Warwick for access to facilities during sabbatical leave. M.N. thanks AusAid for scholarship support.
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