Metal-free allylic/benzylic oxidation strategies with molecular oxygen: recent advances and future prospects

Chen, Kexian; Zhang, Pengfei; Wang, Yong; Li, Haoran

doi:10.1039/c3gc42135j

Cited by 202 publications

(120 citation statements)

References 161 publications

(223 reference statements)

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“…[9][10][11][12] NHPI-catalyzed oxidation of hydrocarbons, (including cumene oxidation with oxygen), have been performed under mild conditions, and high yields as well as high selectivities of products have been achieved. In oxidation processes, PINO radical which is formed in-situ from NHPI, abstracts hydrogen atom from oxidized hydrocarbon much faster, than alkylperoxy radicals in non-catalytic processes (Figure 2).…”

Section: Rooh + R'h → R'oor + Roh + H 2 O (1)mentioning

confidence: 99%

N-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

Konopińska¹

2017

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Cumene oxidation with 1-methyl-1-phenylethyl hydroperoxide catalyzed by N-hydroxyphthalimide or its derivatives and transition metal salts has been studied. Effects of the type of metal compound (Co(II), Mn(II) or Cu(II) chloride, acetate or acetylacetonate), amounts of N-hydroxyphthalimide and metal salt as well as temperature were established. The highest yields of dicumyl peroxide (48-54%) were obtained, when reaction was performed at 60-70°C, in the presence of the NHPI/CuCl 2 catalytic system, in acetonitrile as a solvent. Similar yield of dicumyl peroxide (43%) was obtained in solvent-free medium.

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Section: Rooh + R'h → R'oor + Roh + H 2 O (1)mentioning

confidence: 99%

N-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

Konopińska¹

2017

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“…The residue was purified with flash column chromatography (SiO 2 , n-hexaneEtOAc=2 : 1 1 : 1) to afford 5 (1.02 g, 94%). 2-Benzyloxy-3-(2,2,2-trif luoroethoxy)-3-trif luoromethy lisoindolin-1-one (4) According to the procedure A in which 2,2,2-trifluoroenthanol was used as the alcohol instead, chloride 2 (1.71 g, 5.00 mmol) was converted into ether 4 (1.57 g, 78%). 2-Hydroxy-3-(2,2,2-trif luoroethoxy)-3-trif luoromethy lisoindolin-1-one (6) According to the procedure B, benzyl ether 4 (1.45 g, 3.58 mmol) was converted into 6 (1.07 g, 95%).…”

Section: General Procedures For Hydrogenolysis Of Benzyl Ether (Procedmentioning

confidence: 99%

Enhanced Structural Variety of Nonplanar N-Oxyl Radical Catalysts and Their Application to the Aerobic Oxidation of Benzylic C–H Bonds

Kadoh

Oisaki

Kanai

2016

CHEMICAL & PHARMACEUTICAL BULLETIN

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The design and synthesis of structurally variable, nonplanar N-oxyl radical catalysts and their application to the aerobic oxidation, etherification, and acetoamidation of benzylic C-H bonds are described. The catalytic oxidation of C-H bonds represents a powerful tool to synthesize oxygenated functional molecules from simple hydrocarbons in a straightforward way. Electron-deficient N-oxyl radical catalysts, such as phthalimidoyl N-oxyl (PINO) radical, generated from N-hydroxyphthalimide (1), have attracted much attention because of their applications in the oxidation of C-H bonds with high bond dissociation energy (BDE). However, a few sites in 1 are available for structural modifications and improvements of the catalytic performance. By replacing one carbonyl group in 1 with a trifluoromethyl (CF 3 )-substituted sp 3 -carbon, we generated an additional tunable site and a nonplanar backbone, while retaining the desirable electronwithdrawing properties and increasing the lipophilicity with respect to 1. We synthesized a variety of Nhydroxy pre catalysts containing such a CF 3 moiety, and investigated their utility in the aerobic oxidation of benzylic C-H bonds. Precatalysts with electron-withdrawing substituents, such as trifluoroethoxy and the acetophenone moieties, afforded higher yields than a corresponding methoxy-substituted analogue. The introduction of substituents at the aromatic ring was also effective, as evident from the performance of 7-CF 3 and 4,5,6,7-tetrafluoro precatalysts. Especially the combination of trifluoroethoxy-and 4,5,6,7-tetrafluoro substitution afforded a superior performance. These catalyst systems exhibited high functional group tolerance during the aerobic oxidation of C-H bonds, and benzylic etherification and Ritter-type reactions could be carried out at room temperature when a selected precatalyst and N-bromosuccinimide (NBS) were used.

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“…Among the proposed strategies with the awareness of environmental issues and sustainability of chemical processes, the catalytic systems comprising hydroxyimide organocatalysts with or without co-catalysts have received substantial attention recently due to their established fascinating high reactivity and selectivity in diverse transformations [2][3][4][5][6][7], such as the production of phenols or hydroperoxides from isopropyl aromatics [8][9][10], aromatic carboxylic acids from toluenes [11], and keto-isophorone from a/b-isophorone [12].…”

Section: Introductionmentioning

confidence: 99%

Theoretical study on the catalytic reactivity of N-hydroxyphthalimide tuned by different heterocyclic substitutions on its phenyl ring for aerobic oxidation

Chen

Xie

Jiang

et al. 2016

Chemical Physics Letters

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Metal-free allylic/benzylic oxidation strategies with molecular oxygen: recent advances and future prospects

Cited by 202 publications

References 161 publications

<i>N</i>-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

<i>N</i>-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

Enhanced Structural Variety of Nonplanar <i>N</i>-Oxyl Radical Catalysts and Their Application to the Aerobic Oxidation of Benzylic C–H Bonds

Theoretical study on the catalytic reactivity of N-hydroxyphthalimide tuned by different heterocyclic substitutions on its phenyl ring for aerobic oxidation

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Metal-free allylic/benzylic oxidation strategies with molecular oxygen: recent advances and future prospects

Cited by 202 publications

References 161 publications

&lt;i&gt;N&lt;/i&gt;-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

&lt;i&gt;N&lt;/i&gt;-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

Enhanced Structural Variety of Nonplanar <i>N</i>-Oxyl Radical Catalysts and Their Application to the Aerobic Oxidation of Benzylic C–H Bonds

Theoretical study on the catalytic reactivity of N-hydroxyphthalimide tuned by different heterocyclic substitutions on its phenyl ring for aerobic oxidation

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<i>N</i>-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide

<i>N</i>-Hydroxyphthalimide as a Catalyst of Cumene Oxidation with Hydroperoxide