Reports: UR353234-UR3: Novel Topologically Constrained Transition Metal Complex Oxidation Catalysts
Timothy J. Hubin, Southwestern Oklahoma State University
During the grant period for this report we successfully synthesized several ligand targets, including cyclam, cyclen, and homocyclen based linked tetraazamacrocycles containing both ethylene cross-bridges and side-bridges (Scheme 1), and mono-macrocyclic cyclam derivatives that a propylene cross-bridged (Scheme 2).
Transition metal complexes, including Fe, Mn, and Cu of most ligands were synthesized successfully, either from the metal chloride or acetate salts. Complete chemical characterization of these complexes in ongoing.
Various catalytic oxidation screening reactions have also been set up with the help of collaborator Guochuan Yin (Scheme 3).
A select group of the metal complexes synthesized have been screened using one or more of these oxidation reactions. Preliminary conclusions about the catalytic oxidation chemistry of these types of complexes include: (1) Manganese complexes are generally slightly more effective catalysts in these ligands than is iron, with copper complexes being much less catalytically active. (2) Bis-macrocycle ligand complexes retain much of the same catalytic activity of their mono-macrocycle derivatives (which are known catalysts), but do not typically work quite as efficiently. (3) Propyl bridged ligands, with only a few tested, do not significantly enhance the catalytic activity versus the more well known ethylene bridged ligand complexes.