New Chiral Phosphoramidite Complexes of Iron as Catalytic Precursors in the Oxidation of Activated Methylene Groups

Authors

Pushkar Shejwalkar, University of Missouri–St. Louis
Nigam Rath, University of Missouri–St. Louis
Eike Bauer, University of Missouri–St. Louis

Document Type

Article

Abstract

New phosphoramidite complexes of iron were synthesized and structurally characterized. Reaction of the known chiral phosphoramidites (RO)2PNR’2 (R = binaphthyl, R’ = CH3, 1a; R = binaphthyl, R’ = benzyl, 1b) with [FeBr(Cp)(CO)2] afforded the title compounds [FeBr(Cp)(CO)(1a,b)] (4a,b) in 34 and 65 % isolated yields as mixtures of diastereomers, since both the metal and the ligand are stereogenic. Similarly, reaction of 1b with [Fe(Cp)I(CO)2] in the presence of catalytic [Fe(Cp)(CO)2]2 afforded [Fe(Cp)I(CO)(1b)] (5b) in 81% yield as a mixture of diastereomers. The molecular structures of 4a, 4b and 5 were determined, revealing a pseudo octahedral coordination geometry about the iron center. The new metal complexes are catalytically active in the oxidation of benzylic methylene groups to the corresponding ketones, utilizing t-BuOOH as oxidant (2 mol% catalyst, 36 h, room temperature, 31−80% yield).

Publication Date

April 2010

Publication Title

Molecules

Volume

15

Issue

4

First Page

2631

Last Page

2650

DOI

10.3390/molecules15042631

Recommended Citation

Shejwalkar, Pushkar; Rath, Nigam; and Bauer, Eike, "New Chiral Phosphoramidite Complexes of Iron as Catalytic Precursors in the Oxidation of Activated Methylene Groups" (2010). Chemistry & Biochemistry Faculty Works. 15.
DOI: https://doi.org/10.3390/molecules15042631
Available at: https://irl.umsl.edu/chemistry-faculty/15