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Cover Picture Supramolecular Coordination Assemblies of Dinuclear FeIII Complexes (Angew. Chem. Int. Ed. 272005)

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Cover Picture
Wolfgang Schmitt,* Jonathan P. Hill, M. Paula Juanico,
Andrea Caneschi, Ferdinando Costantino, Christopher E. Anson, and
Annie K. Powell*
Busy bees may also find the honeycomb networks shown in the cover picture
attractive. The networks are based on dinuclear FeIII subunits, aminocarboxylic acid
ligands, and potassium counterions. The properties of the hydrophobic organic ligands
strongly influence the structure of the hydrophilic inorganic zone which in turn affects
the overall structure of the supramolecular assemblies. For more information on this
approach see the Communication by W. Schmitt, A. K. Powell, and co-workers on
page 4187 ff.
Inhibitor Design
Modulators of protein–protein interactions are promising drug candidates in
pharmaceutical research. In their Review on pp. 4130 ff., A. D. Hamilton and H. Yin
discuss current strategies in combinatorial searches and in the rational design of such
Conducting Materials
In their Communication on page 4164 ff. M. Mitsumi, K. Toriumi, et al. report the
spectroscopic and crystallographic properties of a highly conductive mixed-valence
rhodium(i,ii) semiquinonato/catecholato complex.
Molecular Motors
Synthetic DNA-based molecules based on the example of Kinesin are capable of
moving across a surface in a particular direction. This topic is explored in the
Highlight by T. R. Kelly on page 4124 ff.
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int, dinuclear, 272005, cover, angel, chem, coordination, feiii, supramolecular, complexes, picture, assemblies
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