Easy Demetalation of Porphyrins

Easy Demetalation of Porphyrins

Author: Anne Deveson

Nickel porphyrins are among the most commonly used building blocks for the construction of porphyrin-based architectures, as the diamagnetic nickel allows the ready characterization by NMR spectroscopy. However, nickel-based porphyrins are not useful for photophysical investigations as their photoexcited states decay to the ground state in a matter of picoseconds. Atsuhiro Osuka and his group, Kyoto University, Japan, have found that treatment of nickel porphyrins with the Grignard reagent 4-methylphenylmagnesium bromide in specific solvents, results in smooth transmetalation of magnesium for nickel. The magnesium can then be removed under mildly acidic conditions to afford the free-base porphyrin.

This two-step methodology can also be applied to porphyrins complexed with other metals. For example, zinc, copper, and silver porphyrins also underwent a Grignard reaction to give the corresponding magnesium porphyrins, but unfortunately this methodology is not applicable to cobalt and palladium. Nevertheless, the demetalation of a variety of metal porphyrins, which is normally achieved only in very strongly acidic conditions, can now be performed much more easily.


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