Metals in Zeolites for Oxidation Catalysis

Tatsumi, Takashi

doi:10.1002/9783527630295.ch23

Cited by 5 publications

(3 citation statements)

References 123 publications

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“…This interaction allows various ions to be exchanged into the framework cages and channels in order to tailor a zeolite material for a desired chemistry. An alternative way to modify zeolites with metal cations is the substitution of framework Al with other metals. ,, An important advantage of framework substitution is a decrease in metal leaching rates when compared to simple ion-exchanged cations …”

Section: Description Of Metal Oxidesmentioning

confidence: 99%

Aerobic Oxidations of Light Alkanes over Solid Metal Oxide Catalysts

et al. 2017

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Heterogeneous metal oxide catalysts are widely studied for the aerobic oxidations of C-C alkanes to form olefins and oxygenates. In this review, we outline the properties of supported metal oxides, mixed-metal oxides, and zeolites and detail their most common applications as catalysts for partial oxidations of light alkanes. By doing this we establish similarities between different classes of metal oxides and identify common themes in reaction mechanisms and research strategies for catalyst improvement. For example, almost all partial alkane oxidations, regardless of the metal oxide, follow Mars-van Krevelen reaction kinetics, which utilize lattice oxygen atoms to reoxidize the reduced metal centers while the gaseous O reactant replenishes these lattice oxygen vacancies. Many of the most-promising metal oxide catalysts include V surface species as a necessary constituent to convert the alkane. Transformations involving sequential oxidation steps (i.e., propane to acrylic acid) require specific reaction sites for each oxidation step and benefit from site isolation provided by spectator species. These themes, and others, are discussed in the text.

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Section: Description Of Metal Oxidesmentioning

confidence: 99%

Aerobic Oxidations of Light Alkanes over Solid Metal Oxide Catalysts

et al. 2017

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“…11,[17][18][19] Among them, titanium silicalite-1 (TS-1) zeolites, because of its superior hydrophobicity and intrinsically higher catalytic activity than Ti-Beta, is on the top of a few highly active catalysts in thiophene oxidation. [20][21][22][23][24][25] With the incorporation of Ti into a MFI framework, TS-1 zeolites are crystalline with an extensive microporosity of about 0.55 nm in pore diameter. On the other hand, Ti and Si own the same formal valence which is different from the situation of the substitution of trivalent metals for Si as happens in ZSM-5 zeolites.…”

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confidence: 99%

“…26,27 Generally, it is believed that these attributes are critical to the superior catalytic performances for TS-1 zeolites in the oxidative reactions, thus making TS-1 an important milestone in zeolite preparation and fine chemical synthesis. 23,26,28,29 However, the small micropores impede the free diffusion of molecules as demonstrated by the poor performance in BT…”

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confidence: 99%

CTAB-templated mesoporous TS-1 zeolites as active catalysts in a desulfurization process: the decreased hydrophobicity is more favourable in thiophene oxidation

et al. 2013

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Mesoporous TS-1 zeolites (MTS-1) were prepared through direct hydrothermal treatment by using CTAB as the mesoporogen under the assistance of ethanol, and they demonstrated much higher catalytic activity and better recyclability in thiophene oxidation, due to the decreased hydrophobicity and mesoporous structure.New regulations for ultra clean oils with a sulfur content lower than 15 or 10 ppm have been mandated in United States and European countries for environmental protection, respectively. Similarly this year, China has implemented the Euro 5 (10 ppm) standard in some big cities like Beijing. Thus, the production of ultra clean oils is an urgent mission for oil industries. However, the cost to reduce the sulfur content from 500 ppm to 15 ppm is much higher than that needed in desulfurizing crude oils to 500 ppm, by using present technologies like hydrodesulfurization (HDS) process. 1,2 The presence of ''inactive sulfur'' like thiophene and its derivates (benzothiophenes and dibenzothiophenes) are refractory and always need treating in fuels under high pressure of hydrogen at elevated temperatures in the HDS process. 2,3 Hence, oxidative desulfurization (ODS), biodesulfurization, ultrasoundassisted technique and solvent extraction have been proposed to meet the stringent regulations. 1,3-5 Among them, oxidative desulfurization which has been developed for about 10 years, combined with solvent extraction, are one of the most promising techniques to obtain ultra-clean oils or even ''zero-sulfur'' oils, and have gained great interest in the past few years. 1,3,6 Benzothiophene (BT), dibenzothiophene (DBT) and their corresponding alkyl-substitutes with high electron density of sulfur atoms, could be oxidized into corresponding sulfones through various reaction systems, such as organic peracids, 7,8 H 2 O 2 / tungsten salts, 9 t-butylhydroperoxide/transition metaloxides, 10 H 2 O 2 /solid redox catalysts, 11-13 and H 2 O 2 /tungsten/ionic liquids complexes. 14,15 However, thiophene, another major source of sulfur compounds in oils, is highly stable and difficult to be oxidized due to the delocalization effect of its electrons. 4,16 The electron density of the sulfur atom in thiophene is as low as 5.696, which cannot meet the lowest standard between 5.716 and 5.739 for sulfoxidation by using hydrogen peroxide as oxidants. 8 Thus, the oxidation of thiophene is much more difficult than either BT or DBT, or their derivates. A large number of literatures have demonstrated that Ti-containing molecular sieves (Ti-Beta and Ti-HMS) combined with H 2 O 2 are active and environmental friendly in the oxidation of BTs and DBTs. 11,[17][18][19] Among them, titanium silicalite-1 (TS-1) zeolites, because of its superior hydrophobicity and intrinsically higher catalytic activity than Ti-Beta, is on the top of a few highly active catalysts in thiophene oxidation. [20][21][22][23][24][25] With the incorporation of Ti into a MFI framework, TS-1 zeolites are crystalline with an extensive microporosity of about 0.55 nm in pore diameter...

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Oxidation Reactions Catalyzed by Transition‐Metal‐Substituted Zeolites

Clerici¹,

Dómine²

2013

Liquid Phase Oxidation via Heterogeneous Catalysis

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Metals in Zeolites for Oxidation Catalysis

Cited by 5 publications

References 123 publications

Aerobic Oxidations of Light Alkanes over Solid Metal Oxide Catalysts

Aerobic Oxidations of Light Alkanes over Solid Metal Oxide Catalysts

CTAB-templated mesoporous TS-1 zeolites as active catalysts in a desulfurization process: the decreased hydrophobicity is more favourable in thiophene oxidation

Oxidation Reactions Catalyzed by Transition‐Metal‐Substituted Zeolites

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