74483-92-4Relevant articles and documents
High-Spin and Low-Spin State Perferryl Intermediates: Reactivity-Selectivity Correlation in Fe(PDP) Catalyzed Oxidation of (+)-Sclareolide
Zima, Alexandra M.,Babushkin, Dmitrii E.,Lyakin, Oleg Y.,Bryliakov, Konstantin P.,Talsi, Evgenii P.
, (2021/12/03)
Five iron complexes of the Fe(PDP) family, giving rise to the low-spin (S=1/2) and high-spin (S=3/2) perferryl oxygen-transferring intermediates, have been screened in the C?H oxidation of the bulky steroidal substrate (3aR)-(+)-sclareolide with H2/
Catalyst-controlled aliphatic C—H oxidations
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Page/Page column 37; 61; 63-64, (2018/04/20)
The invention provides simple small molecule, non-heme iron catalyst systems with broad substrate scope that can predictably enhance or overturn a substrate's inherent reactivity preference for sp3-hybridized C—H bond oxidation. The invention also provides methods for selective aliphatic C—H bond oxidation. Furthermore, a structure-based catalyst reactivity model is disclosed that quantitatively correlates the innate physical properties of the substrate to the site-selectivities observed as a function of the catalyst. The catalyst systems can be used in combination with oxidants such as hydrogen peroxide to effect highly selective oxidations of unactivated sp3 C—H bonds over a broad range of substrates.
The iron(II) complex [Fe(CF3SO3)2(mcp)] as a convenient, readily available catalyst for the selective oxidation of methylenic sites in alkanes
Canta, Merce,Font, David,Gomez, Laura,Ribas, Xavi,Costas, Miquel
supporting information, p. 818 - 830 (2014/04/03)
The efficient and selective oxidation of secondary C-H sites of alkanes is achieved by using low catalyst loadings of a non-expensive, readily available iron catalyst [Fe(II)(CF3SO3)2(mcp)], {Fe-mcp, [mcp=N,N'-dimethyl-N,N'-bis(2-pyridylmethyl)cyclohexane-trans-1,2-diamine]}, and hydrogen peroxide (H2O2) as oxidant, via a simple reaction protocol. Natural products are selectively oxidized and isolated in synthetically amenable yields. The easy access to large quantities of the catalyst and the simplicity of the C-H oxidation procedure make this system a particularly convenient tool to carry out alkane C-H oxidation reactions on the preparative scale, and in short reaction times.
