Polymer Anchored Catalysts for Oxidation of Styrene Using TBHP and Molecular Oxygen

Sharma, Sweta; Sinha, Shishir; Chand, Shri

doi:10.1021/ie201953y

Cited by 74 publications

(43 citation statements)

References 39 publications

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“…We conclude that the catalyst is purely heterogeneous in nature. Comparison of the catalytic activity of PS-(PBIM) 2 Cu(II) with other reported systems (Table 4) Scheme 2 Plausible reaction mechanism for the oxidation of styrene reveals that the present catalyst exhibits higher conversion and selectivity compared to other systems [24][25][26][27][28][29][30][31][32][33].…”

Section: Heterogeneity and Recycling Testsmentioning

confidence: 93%

Liquid-phase catalytic oxidation of organic substrates by a recyclable polymer-supported copper(II) complex

Shilpa

Gayathri

2013

Transition Met Chem

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Chloromethylated polystyrene beads crosslinked with 6.5 % divinylbenzene were functionalized with 2-(2 0 -pyridyl) benzimidazole (PBIMH) and on subsequent treatment with Cu(OAc) 2 in methanol gave a polymersupported diacetatobis(2-pyridylbenzimidazole)copper(II) complex [PS-(PBIM) 2 Cu(II)], which was characterized by physicochemical techniques. The supported complex showed excellent catalytic activity toward the oxidation of industrially important organic compounds such as phenol, benzyl alcohol, cyclohexanol, styrene, and ethylbenzene. An effective catalytic protocol was developed by varying reaction parameters such as the catalyst and substrate concentrations, reaction time, temperature, and substrateto-oxidant ratio to obtain maximum selectivity with high yields of products. Possible reaction mechanisms were worked out. The catalyst could be recycled five times without any metal leaching or much loss in activity. This catalyst is truly heterogeneous and allows for easy work up, as well as recyclability and excellent product yields under mild conditions.

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Section: Heterogeneity and Recycling Testsmentioning

confidence: 93%

Liquid-phase catalytic oxidation of organic substrates by a recyclable polymer-supported copper(II) complex

Shilpa

Gayathri

2013

Transition Met Chem

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“…The [17,18,20]. A small difference in the initial ratios of cations between starting materials and the copper-richer solids (x > 0.28) is probably due to the different solubility products of ionic solids at a constant pH during the precipitation course [28,30,[32][33][34][35].…”

Section: Catalytic Performancementioning

confidence: 99%

“…In the latter case, the styrene conversion gradually decreases with increasing copper content, as consequence the selectivity to benzaldehyde shows a better value on the copper-richer catalysts. This indicates that Cu 2+ ions has not only shown a good ability to oxidize styrene to benzaldehyde, but also exhibited the parallel competitive catalytic destruction of H 2 O 2 [20,51,52].…”

Section: Effect Of Copper Contents In Cu-doped Hydrotalcitesmentioning

confidence: 99%

“…12B). This may be suggested that the main product may be converted to secondary product due to the hydrolysis and opening of the oxirane ring [20,52,54].…”

Section: Effect Of Reaction Timementioning

confidence: 99%

“…Among these heterogeneous systems, titanium -containing catalysts are the most available systems reported in literature, but their activity is rather fluctuation and strongly dependent upon the preparation routes, chemical precursors, and laboratory skills ( Table 1, Entry # 2-6) [4][5][6][7][8]. Hence, many other transition metals have been recently tried in variable ways for the preparation of catalysts, including in the form of oxide film [7,8], nanoxides [9], metals supported catalysts [4,10,17], immobilized systems [2,[18][19][20]. The product selectivity is strongly dependent on the catalyst nature, oxidant behavior, solvent… (Table 1).…”

Section: Introductionmentioning

confidence: 99%

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Catalytic oxidation of styrene over Cu-doped hydrotalcites

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Advances in the Catalysis of Organic Processes by Metal Phenolates

Serra

Murtinho

2016

Patai's Chemistry of Functional Groups

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Transition‐metal catalysts with phenolate ligands comprise a great variety of compounds with appropriate characteristics capable of promoting numerous reactions of extreme importance in synthetic organic chemistry. Included in these transformations are oxidations of alkenes, sulfides, alcohols, and alkanes, cyanations, alkynylations, alkylations, hydroaminations, and nitroaldol reactions. An extensive review of the catalysis of organic processes by metal phenolates has been presented in a previous volume of this series. This chapter is an update of the advances published from 2011 to the beginning of 2015, with emphasis on the type of reactions catalyzed by metal phenolates that have gained more attention in the literature during this period.

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Polymer Anchored Catalysts for Oxidation of Styrene Using TBHP and Molecular Oxygen

Cited by 74 publications

References 39 publications

Liquid-phase catalytic oxidation of organic substrates by a recyclable polymer-supported copper(II) complex

Liquid-phase catalytic oxidation of organic substrates by a recyclable polymer-supported copper(II) complex

Catalytic oxidation of styrene over Cu-doped hydrotalcites

Advances in the Catalysis of Organic Processes by Metal Phenolates

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