Stephen K. O’Shea scite author profile

The reaction of octaethylporphyrin iron(III) chloride with potassium crown ether (18-crown-6) nitrite in N-methylpyrrolidone-1% acetic acid under argon generates the iron(III) nitrite salt (PFeNO(2)). The latter is a unique and selective oxygen atom transfer reagent. The reaction of a broad range of substrates (S) proceeds quantitatively to yield the oxidized substrate and the iron(II) porphyrin-nitrosyl adduct: PFeNO(2) + S --> PFeNO + SO. Diatomic molecules to which oxygen is directly transferred from PFeNO(2) are NO, CO, and O(2). The conversion NO to NO(2) is shown via (15)NO(2)(-) labeling experiments to proceed exclusively by the O atom transfer process. The ozone, generated from dioxygen, was trapped with nitrite ion and the two olefins 2-methyl-2 butene and 2,3-dimethyl-2 butene. These substances are inert to PFeNO(2) under argon. However, in an oxygen-saturated reaction mixture, nitrite produced nitrate. The olefins, following reduction of the reaction mixture with Zn/HOAc, yielded 1 mol of acetone and acetaldehyde and 2 mol of acetone, respectively. Other simple O atom transfers under argon were observed with dimethyl sulfide and triphenylphosphine. The PFeNO(2) reagent shows a preference for O insertion into allylic, benzylic, and aldehydic C-H bonds. Thus, no olefin containing these moieties is epoxidized. However, styrene and cis-stilbene are converted to styrene oxide and cis-stilbene oxide, respectively. The double oxidation of allylbenzene to trans-cinnamaldehyde entails an allylic rearrangement that suggests radical character to the O insertion process. However, no kinetic evidence for this was obtained. The reaction is an overall third-order process, rate = k(PFe(III))(NO(2)(-))(S). There was no correlation of observed rates with relevant C-H bond dissociation energies of substrates. The fastest reacting substrate was nitric oxide (k(22) degrees = 52 M(-)(2) s(-)(1)) and the slowest was toluene (k(50) degrees = 6.3 x 10(-)(4) M(-)(2) s(-)(1)). The range and selectivity of these O atom transfers sets them apart from the catalytic oxidations brought about by reactions of iron(III) porphyrins with peroxides, iodosoaryls, hypochlorite, and other oxidants. The driving force for the relatively mild oxidations with PFeNO(2) resides in the thermodynamic stability of the heme-NO adduct. Given the broad presence of nitrite in the environment and the ubiquity of porphyrins in the biosphere, the activation of nitrite by iron porphyrins has both an environmental and biochemical significance.

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Isolation and Analysis of Essential Oils from Spices

O’Shea

Riesen

Rossi

2012

J. Chem. Educ.

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Natural product isolation and analysis provide an opportunity to present a variety of experimental techniques to undergraduate students in introductory organic chemistry. Eugenol, anethole, and carvone were extracted from six common spices using steam-distillation and diethyl ether as the extraction solvent. Students assessed the purity of their spice extract and identified its components via TLC, reverse-phase HPLC, and GC−MS analyses. In addition, students reviewed molecular characteristics and interactions while discovering the similarities and differences among the six spice extracts.

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Activation of Nitrite Ion by Iron(III) Porphyrins. Stoichiometric Oxygen Transfer to Carbon, Nitrogen, Phosphorus, and Sulfur

Castro¹,

O’Shea²

1995

J. Org. Chem.

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Site Reactivity Probes: [1,2-13C]Chloroacetic Acid, A Reactivity Probe for Soil

Castro¹,

O’Shea²,

Bartnicki³

1995

Environ. Sci. Technol.

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Stephen K. O’Shea

Dietary esterified astaxanthin effects on color, carotenoid concentrations, and compositions of clown anemonefish, Amphiprion ocellaris, skin

Selective Oxygen Transfers with Iron(III) Porphyrin Nitrite

Isolation and Analysis of Essential Oils from Spices

Activation of Nitrite Ion by Iron(III) Porphyrins. Stoichiometric Oxygen Transfer to Carbon, Nitrogen, Phosphorus, and Sulfur

Site Reactivity Probes: [1,2-13C]Chloroacetic Acid, A Reactivity Probe for Soil

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