Solid-state self-assembly of polymeric double helicates leading to linear arrays of silver(I) ions and reversible strand/double helix interconversion in solution

Abstract

Reaction of a bent py-hyz-pym-hyz-pym 1 and of a linear py-hyz-py-hyz-pym 3 (py = pyridine; pym = pyrimidine; hyz = hydrazone) ligand strands with silver(I) tetrafluoroborate in CH3NO2 generates double-helical dinuclear 2 and trinuclear 4 complexes. These complexes form polymeric, highly ordered solid-state structures, with wirelike, linear continuous or discontinuous polycationic Agn+ arrays with Ag-Ag distances of 2.78 to 4.42 Å. Ligand 5, an isomer of 1, is found to yield a [2×2] grid-type complex 6. Titration experiments reveal the formation of linear rack-type dinuclear species from 1 and 5. Acid-base modulated, reversible interconversion between strand 1 and double helicate 2 may be achieved by using tren as a competing complexing agent (tren = N(CH 2CH2NH2)3). Progressive addition of silver(I) ions to a 1:1 mixture of 1 and 5 leads to the preferential formation of the double helicate 2 over the grid complex 6, illustrating a process of self-organisation with selection of the correct ligand. © 2007 Wiley-VCH Verlag GmbH & Co. KGaA.