Mechanism of Alcohol Oxidation Mediated by Copper(II) and Nitroxyl Radicals

Ryland, Bradford L.; McCann, Scott D.; Brunold, Thomas C.; Stahl, Shannon S.

doi:10.1021/ja5070137

Cited by 191 publications

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“…These conditions have been shown to involve the nitroxides alternating between these two oxidation states, and between a copper bound and a free state 54 . Oxidation of benzyl alcohol using nitroxides 25b, 32 and 35 is complete within 1-2 h at room temperature.…”

Section: Resultsmentioning

confidence: 99%

Design concept for α-hydrogen-substituted nitroxides

et al. 2015

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Stable nitroxides (nitroxyl radicals) have many essential and unique applications in chemistry, biology and medicine. However, the factors influencing their stability are still under investigation, and this hinders the design and development of new nitroxides. Nitroxides with tertiary alkyl groups are generally stable but obviously highly encumbered. In contrast, a-hydrogen-substituted nitroxides are generally inherently unstable and rapidly decompose. Herein, a novel, concept for the design of stable cyclic a-hydrogen nitroxides is described, and a proof-of-concept in the form of the facile synthesis and characterization of two diverse series of stable a-hydrogen nitroxides is presented. The stability of these unique a-hydrogen nitroxides is attributed to a combination of steric and stereoelectronic effects by which disproportionation is kinetically precluded. These stabilizing effects are achieved by the use of a nitroxide co-planar substituent in the g-position of the backbone of the nitroxide. This premise is supported by a computational study, which provides insight into the disproportionation pathways of a-hydrogen nitroxides.

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Section: Resultsmentioning

confidence: 99%

Design concept for α-hydrogen-substituted nitroxides

et al. 2015

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“…[5] Sheldon et al found the accelerating effect of 2,2'-bipyridine (bpy) ligands on the Cu(II) catalytic system, [6] Koskinen et al optimized the type and amount of base with Cu(II), [7] and Stahl et al performed scope and limitation studies as well as kinetic and mechanistic investigations demonstrating the importance of Cu(I) salts and N-methyl-A C H T U N G T R E N N U N G imidazole (NMI) as base. [8][9][10][11] The applicability of the system has been expanded to prepare nitriles from aldehydes or alcohols using aqueous ammonia [12] or to oxidize amine [13] and amino alcohols [14] into imines and amino carbonyl compounds, respectively.…”

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confidence: 99%

“…It was reported by Stahl et al that the reaction rate is limited by aerobic oxidation of Cu(I). [11] One way this issue can be addressed is to operate at a higher oxygen pressure and this was recently reported by Stahl et al in a continuous flow reactor. [15] However, even if near quantitative formation of benzaldehyde from benzyl alcohol was obtained with a residence time of 5 min with 35 bar of diluted oxygen source (9% O 2 in N 2 ) at 100 8C, these experimental conditions (diluted O 2 and elevated temperature) might not be optimum for the following reasons.…”

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confidence: 99%

“…[20] Thus if aerobic oxidation is the turnover-limiting step, [11] the increase in temperature will have a limited effect on the rate of the oxidation. It should also be noticed that a small Ea has also been calculated for the Cu(II)/nitroxylmediated oxidation of the alcohol to aldehyde via the H abstraction (steps C of the catalytic cycle in Scheme 1).…”

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confidence: 99%

“…Simplified catalytic cycle for the Cu-catalysed aerobic oxidation of primary alcohols (adapted from refs. [10,11] ). (about 2 and 5% absolute and relative conversion, respectively), both possibilities lead to the same dependency between conversion and residence time.…”

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Gas–Liquid Segmented Flow Microfluidics for Screening Copper/TEMPO‐Catalyzed Aerobic Oxidation of Primary Alcohols

et al. 2015

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Aerobic oxidation using a combination of copper salts and 2,2,6,6-tetramethylpiperidine Noxyl (TEMPO) represent useful tools for organic synthesis and several closely related catalyst systems have been reported. To gain further insights, these catalytic systems were evaluated in a gasliquid segmented flow device. The improvement of oxygen mass transfer has a significant influence on the turnover-limiting step. Hence, an improved catalytic system using copper(II) as copper source was implemented in a microreactor for the safe and efficient oxidation of primary alcohol.

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2,2′‐Bipyridine

Puyl

2022

Encyclopedia of Reagents for Organic Synthesis

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Mechanism of Alcohol Oxidation Mediated by Copper(II) and Nitroxyl Radicals

Cited by 191 publications

References 66 publications

Design concept for α-hydrogen-substituted nitroxides

Design concept for α-hydrogen-substituted nitroxides

Gas–Liquid Segmented Flow Microfluidics for Screening Copper/TEMPO‐Catalyzed Aerobic Oxidation of Primary Alcohols

2,2′‐Bipyridine

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