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Chakraborty, Indranil
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article
Water-soluble derivatives of octanuclear iron-oxido-pyrazolato complexes - An experimental and computational study
Abstract
<p>Two water-soluble iron-pyrazolato complexes (compounds 3 and 4), [Fe <sub>8</sub>], have been prepared by introducing twelve hydroxyalkyl groups to the periphery of the approximately spherical octanuclear molecule. They are contrasted with their two organosoluble chloroalkyl analogues (compounds 1 and 2). All four complexes were characterized in solution by <sup>1</sup>H NMR and electrospray ionization mass spectrometry. The one-electron-reduction product of water-soluble 3, [Fe <sub>8</sub>] <sup>-</sup>, was structurally characterized by single-crystal X-ray diffraction analysis. In aqueous media, the four terminal Fe-Cl bonds of [Fe <sub>8</sub>] are partially hydrolyzed, and the resulting chlorido-aqua-hydroxido species form supramolecular nanoscale aggregates, as determined by dynamic light scattering and electron microscopy. Preliminary computational studies with DFT methods were employed to model the H-bonding interactions controlling the competing solvation and aggregation processes. Twelve hydroxyalkyl pendant groups render an octanuclear iron-oxido-pyrazolato complex soluble in water, where partial hydrolysis and extended intermolecular H-bonding interactions result in supramolecular assemblies.</p>