Linda E. Farkas scite author profile

Linda E. Farkas

3Publications

56Citation Statements Received

100Citation Statements Given

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106

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University of Maryland, College Park

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Dirhodium-Catalyzed Phenol and Aniline Oxidations with T-HYDRO. Substrate Scope and Mechanism of Oxidation

et al. 2011

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Dirhodium caprolactamate, Rh(2)(cap)(4), is a very efficient catalyst for the generation of the tert-butylperoxy radical from tert-butyl hydroperoxide, and the tert-butylperoxy radical is a highly effective oxidant for phenols and anilines. These reactions are performed with 70% aqueous tert-butyl hydroperoxide using dirhodium caprolactamate in amounts as low as 0.01 mol % to oxidize para-substituted phenols to 4-(tert-butyldioxy)cyclohexadienones. Although these transformations have normally been performed in halocarbon solvents, there is a significant rate enhancement when Rh(2)(cap)(4)-catalyzed phenol oxidations are performed in toluene or chlorobenzene. Electron-rich and electron-poor phenolic substrates undergo selective oxidation in good to excellent yields, but steric influences from bulky para substituents force oxidation onto the ortho position resulting in ortho-quinones. Comparative results with RuCl(2)(PPh(3))(3) and CuI are provided, and mechanistic comparisons are made between these catalysts that are based on diastereoselectivity (reactions with estrone), regioselectivity (reactions with p-tert-butylphenol), and chemoselectivity in the formation of 4-(tert-butyldioxy)cyclohexadienones. The data obtained are consistent with hydrogen atom abstraction by the tert-butylperoxy radical followed by radical combination between the phenoxy radical and the tert-butylperoxy radical. Under similar reaction conditions, para-substituted anilines are oxidized to nitroarenes in good yield, presumably through the corresponding nitrosoarene, and primary amines are oxidized to carbonyl compounds by TBHP in the presence of catalytic amounts of Rh(2)(cap)(4).

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Tandem Sequence of Phenol Oxidation and Intramolecular Addition as a Method in Building Heterocycles

2012

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A tandem phenol oxidation-Michael addition furnishing oxo- and -aza-heterocycles has been developed. Dirhodium caprolactamate [Rh(2)(cap)(4)] catalyzed oxidation by T-HYDRO of phenols with alcohols, ketones, amides, carboxylic acids, and N-Boc protected amines tethered to their 4-position afforded 4-(tert-butylperoxy)cyclohexa-2,5-dienones that undergo Brønsted acid catalyzed intramolecular Michael addition in one-pot to produce oxo- and -aza-heterocycles in moderate to good yields. The scope of the developed methodology includes dipeptides Boc-Tyr-Gly-OEt and Boc-Tyr-Phe-Me and provides a pathway for understanding the possible transformations arising from oxidative stress of tyrosine residues. A novel method of selective cleavage of O-O bond in hindered internal peroxide using TiCl(4) has been discovered in efforts directed to the construction of cleroindicin F, whose synthesis was completed in 50% yield over just 3 steps from tyrosol using the developed methodology.

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ChemInform Abstract: Tandem Sequence of Phenol Oxidation and Intramolecular Addition as a Method in Building Heterocycles.

2013

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Tandem Sequence of Phenol Oxidation and Intramolecular Addition as a Method in BuildingHeterocycles. -Rhodium-catalyzed oxidation of p-substituted phenols with tBuOOH followed by intramolecular Michael-addition opens access to a variety of oxa-and aza-heterocycles. The process can be conducted sequentially or as a one-pot procedure. Application of tyrosine derivatives to this protocol provides insight into oxidative stress phenomenons of tyrosine residues in biological systems. -(RATNIKOV, M. O.; FARKAS, L. E.; DOYLE*, M. P.; J. Org. Chem. 77 (2012) 22, 10294-10303, http://dx.

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Linda E. Farkas

Dirhodium-Catalyzed Phenol and Aniline Oxidations with T-HYDRO. Substrate Scope and Mechanism of Oxidation

Tandem Sequence of Phenol Oxidation and Intramolecular Addition as a Method in Building Heterocycles

ChemInform Abstract: Tandem Sequence of Phenol Oxidation and Intramolecular Addition as a Method in Building Heterocycles.

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