1. Design and Function of Pre-organised Outer-Sphere Amidopyridyl Extractants for Zinc(II) and Cobalt(II) Chlorometallates: The Role of CH Hydrogen Bonds.
- Author
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Ellis, Ross J., Chartres, Jy, Henderson, David K., Cabot, Rafel, Richardson, Patricia R., White, Fraser J., Schröder, Martin, Turkington, Jennifer R., Tasker, Peter A., and Sole, Kathryn C.
- Abstract
Four new sterically hindered pyridines, L
1 -L4 -containing amido substituents at the 2-position act as efficient solvent extractants for [CoCl4 ]2− or [ZnCl4 ]2− from acidic chloride solutions through protonation of the pyridino N-centre to form the neutral outer-sphere complexes [(LH)2 MCl4 ]. These ionophores show very high selectivity for chlorometallate anions over chloride ion and are readily stripped to liberate the free-metal chlorides without the formation of inner-sphere complexes [ML2 Cl2 ]. Single-crystal X-ray structure determinations of [(L2 H)2 CoCl4 ] and [(L2 H)2 ZnCl4 ] (L2 =2-(4,6-di- tert-butylpyridin-2-yl)- N, N′-dihexylmalonamide) coupled with1 H NMR spectroscopy and DFT calculations on L2 H+ and other complexes of [ZnCl4 ]2− confirm that the pyridinium NH group does not address the outer co-ordination sphere of the metallanion, but rather forms a hydrogen bond to the pendant amide groups and thus pre-organizes the ligand to present both CH and amido NH hydrogen-bond donors to the [MCl4 ]2− ions. The selectivity for chlorometallates over chloride ions shown by this class of extractants arises from their ability to present several polarized CH units towards the charge-diffuse ions [MCl4 ]2− , whereas the smaller, 'harder' chloride anion prefers to be associated with the amido NH hydrogen-bond donors. [ABSTRACT FROM AUTHOR]- Published
- 2012
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