Efficient Oxidative Cleavage of Olefins to Carboxylic Acids with Hydrogen Peroxide Catalyzed by Methyltrioctylammonium Tetrakis(oxodiperoxotungsto)phosphate(3−) under Two-Phase Conditions. Synthetic Aspects and Investigation of the Reaction Course

Antonelli, Ermanno; D’Aloisio, Rino; Gambaro, Mario; Fiorani, Tiziana; Venturello, Carlo

doi:10.1021/jo980481t

Cited by 136 publications

(98 citation statements)

References 61 publications

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“…As can be seen, the evolution of the conversion over time follows the trend of a sigmoid curve, which is typical of processes that require a catalyst induction period. This might be related to the formation of peroxometallic intermediates on the surface of CsPMo nanoparticles (and, in general of other similar salts) [3,20,26,27]. Because, after catalyst pre-treatment with hydrogen peroxide, the induction period disappears, this experimental observation supports the above hypothesis.…”

Section: Influence Of the Reaction Timesupporting

confidence: 78%

Influence of peroxometallic intermediaries present on polyoxometalates nanoparticles surface on the adipic acid synthesis

Alcañiz-Monge

Trautwein

Garcı́a-Garcı́a

2014

Journal of Molecular Catalysis A: Chemical

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Section: Influence Of the Reaction Timesupporting

confidence: 78%

Influence of peroxometallic intermediaries present on polyoxometalates nanoparticles surface on the adipic acid synthesis

Alcañiz-Monge

Trautwein

Garcı́a-Garcı́a

2014

Journal of Molecular Catalysis A: Chemical

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“…This is important, since tungsten-based catalysts are well known to promote epoxidation reactions or carbon-carbon double bond cleavage hydrogen peroxide based processes. [29][30][31][32][33] Hydroxyl groups also remained intact under these conditions (entry 16) and the corresponding sulfoxide was obtained in 93.9% of yield. The reaction times required for sulfoxide formation ranged from 1.5 to 4 h for all substrates except for diphenyl sulfide, which took 7 h and led to the lowest yield (entry 14).…”

Section: Resultsmentioning

confidence: 95%

A peroxotungstate-ionic liquid brush assembly: an efficient and reusable catalyst for selectively oxidizing sulfides with aqueous H2O2 solution in neat water

Ma¹,

Ou²,

Han³

et al. 2012

J. Braz. Chem. Soc.

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Uma sistema catalítico heterogêneo de peroxotungstato realizado em líquido iônico (IL) tipo escova foi sintetizado e aplicado na oxidação seletiva de sulfetos a temperatura ambiente e usando peróxido de hidrogênio 30 wt.% como oxidante terminal e água como solvente. Nenhum cosolvente orgânico ou outro aditivo foi necessário e a reação ocorre com uma quantidade de 1,5-2,0 mol% (baseado no W) de catalisador. Sulfetos alifáticos e aromáticos foram transformados de maneira eficiente e seletiva em seus respectivos sulfóxidos ou sulfonas pelo controle dos equivalentes de peróxido de hidrogênio. Grupos funcionais sensíveis à oxidação, tais como ligações duplas e hidroxila, não foram afetados mesmo com excesso de peróxido de hidrogênio. O catalisador foi recuperado após a reação via filtração e reutilizado pelo menos oito vezes sem perda significativa de atividade.An efficient and reusable heterogeneous catalytic assembly of peroxotungstate held in a ionic liquid (IL) brush was synthesized and an environmentally-friendly procedure was developed for selective oxidation of sulfides at room temperature using 30 wt.% hydrogen peroxide as the terminal oxidant and water as a sole solvent. No organic co-solvent or other additive was needed. A 1.5-2.0 mol% (based on W atom) loading catalyst was found to be sufficient for a smooth and clean reaction. Both aliphatic and aromatic sulfides were efficiently and selectively transformed into their respective sulfoxides or sulfones by simply controlling of equivalents of hydrogen peroxide. In addition to the high catalytic activity, the catalyst exhibits excellent chemoselectivity. Sensitive functional groups, such as double bond and hydroxyl, remained under the oxidation conditions the reaction even with an excess hydrogen peroxide. The catalyst was easily recovered (via simple filtration) and reused at least eight times without a noticeable loss of activity.

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“…Depending on these influencing factors the yields of AA varied between 67 and 92%. Venturello and co-workers [67] identified two main reaction pathways for this type of reaction leading from alkenes to acids. The first one involves the perhydrolysis and the second one the hydrolysis of the epoxide formed primarily, whereas the former plays a significant role in the oxidation of medium-and long-chain alkenes to acids.…”

Section: Direct Cleavage Of Monoenic Fatty Acids and Estersmentioning

confidence: 98%

Synthesis of azelaic acid from vegetable oil‐based feedstocks

Köckritz

Martin

2010

Euro J Lipid Sci & Tech

114

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show abstract

Efficient Oxidative Cleavage of Olefins to Carboxylic Acids with Hydrogen Peroxide Catalyzed by Methyltrioctylammonium Tetrakis(oxodiperoxotungsto)phosphate(3−) under Two-Phase Conditions. Synthetic Aspects and Investigation of the Reaction Course

Cited by 136 publications

References 61 publications

Influence of peroxometallic intermediaries present on polyoxometalates nanoparticles surface on the adipic acid synthesis

Influence of peroxometallic intermediaries present on polyoxometalates nanoparticles surface on the adipic acid synthesis

A peroxotungstate-ionic liquid brush assembly: an efficient and reusable catalyst for selectively oxidizing sulfides with aqueous H2O2 solution in neat water

Synthesis of azelaic acid from vegetable oil‐based feedstocks

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