New Process for 2,6-Dimethylnaphthalene Synthesis by Using C<sub>10</sub> Aromatics as Solvent and Transmethylation-Agentia: High-Efficiency and Peculiar Subarea-Catalysis over Shape-Selective ZSM-5/Beta Catalyst

Li, Junhui; Gong, Qing; Lian, Hua; Hu, Zhonghua; Zhu, Zhirong

doi:10.1021/acs.iecr.9b01596

Cited by 12 publications

(22 citation statements)

References 46 publications

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“…Generally, the alkylation of NA and methanol follows an acid-catalyzed reaction . According to the XRD results, it is known that 30Al-SiO 2 is an amorphous silica–aluminate.…”

Section: Resultsmentioning

confidence: 99%

“…The methylation reaction is carried out at weaker acidity, while other side reactions such as isomerization, dealkylation, and disproportionation require strong acidity. 64 Therefore, the Al content is properly adjusted to give the catalyst some reasonable acid sites, which leads to improvement of both the conversion and selectivity of the target product, as shown in Table 4.…”

Section: Catalytic Activity Evaluationmentioning

confidence: 99%

“…Generally, the alkylation of NA and methanol follows an acid-catalyzed reaction. 64 According to the XRD results, it is known that 30Al-SiO 2 is an amorphous silica−aluminate. Meanwhile, the Si-(OH)-Al group, as a small unit of 30Al-SiO 2 , plays a crucial role in these acid-catalyzed reactions.…”

Section: Elimination Of Internal and External Diffusionmentioning

confidence: 99%

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Methylation of Naphthalene with Methanol over the Al-Modified SiO₂ Zeolite Catalysts

Zhong,

Xu,

et al. 2024

Ind. Eng. Chem. Res.

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2,6-Dimethylnaphthalene (2,6-DMN) is a crucial intermediate in the synthesis of poly(ethylene naphthalate), a heatresistant insulating material. The key to synthesizing 2,6-DMN is the development of highly active catalysts, which still remains challenging. Herein, bare SiO 2 and a series of Al-modified SiO 2 catalysts (denoted as Al-SiO 2 ) were successfully synthesized through a hydrothermal method using sodium metaaluminate as the Al source. The prepared catalysts were used for catalytic alkylation of naphthalene, and it was found that the Al-doped SiO 2 exhibited better catalytic activity than bare SiO 2 . The main reason is ascribed to the increased acid sites for Bronsted and Lewis acids with the incorporation of Al. Among the Al-modified SiO 2 samples, the amount of weak and total acidities was the highest for the 30Al-SiO 2 sample. In addition, the reaction conditions over this prepared catalyst were studied and optimized. The results showed that it exhibited the highest activity when the temperature was 300 °C and the weight hourly space velocity was 1 h −1 . Furthermore, density functional theory calculations showed that the doping of Al into SiO 2 enhanced the adsorption of methanol, resulting in a faster rate of formation of methoxylated material in the first step. Besides, methylation at the 6 position was slightly preferred compared to that at the 7 position, in line with the experimental results.

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“…Generally, the alkylation of NA and methanol follows an acid-catalyzed reaction . According to the XRD results, it is known that 30Al-SiO 2 is an amorphous silica–aluminate.…”

Section: Resultsmentioning

confidence: 99%

Section: Catalytic Activity Evaluationmentioning

confidence: 99%

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Methylation of Naphthalene with Methanol over the Al-Modified SiO₂ Zeolite Catalysts

Zhong,

Xu,

et al. 2024

Ind. Eng. Chem. Res.

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“…Moreover, the former catalyst showed an alkylation‐selectivity of only 60.6% for forming xylene, but an alkylation‐selectivity of 16.6% to form C 9+ aromatics and a much higher content of benzene in aromatic products. These are because the strength of acidity required for catalyzing the reactions follows an order: alkylation < dealkylation < disproportionation, and here toluene alkylation is just catalyzed by weak‐medium acid sites . On the one hand, the excessively strong acidity resulted in intense dealkylation (the backward reaction of alkylation).…”

Section: Resultsmentioning

confidence: 99%

“…These are because the strength of acidity required for catalyzing the reactions follows an order: alkylation < dealkylation < disproportionation, and here toluene alkylation is just catalyzed by weak-medium acid sites. [23,52,[55][56][57] On the one hand, the excessively strong acidity resulted in intense dealkylation (the backward reaction of alkylation). And then an accelerated aromatic-based cycle (in MTO side-reaction) also occurs with producing mainly ethylene and some propylene through the demethylation of trimethylbenzenes and 1,2,4,5tetramethylbezene [41][42][43] (proved by the increased selectivity of C 2 aliphatics in the gas product for ZSM-5-C, listed in Table 3).…”

Section: Effect Of Acidic Density and Strength On The Reacting-pathwa...mentioning

confidence: 99%

Insight into the Alkylation‐Efficiency of Methanol with Toluene over HZSM‐5 Zeolite II: Acidic Properties also Significantly Affects Reacting‐Pathways

Gong

Jia

et al. 2020

ChemistrySelect

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Here the effect of HZSM-5 acid-properties on the reactingpathways in the reaction system of toluene alkylation with methanol was studied detailedly, from the aspects of acidic type (Brönsted/Lewis), density, strength and location. A reasonable acid-properties as following is an indispensable support to achieve a high methanol alkylation-efficiency: not only the relatively high ratios of both Brönsted/Lewis and external/ internal acid-amount, but also both modest density and weakmedium strength. Firstly, because alone Lewis acidity is almost inactive to aromatic alkylation, meaning Brönsted acid-sites are indispensable. Secondly, an extremalization in either acidic density or strength is disadvantageous to aromatic alkylation, but encourages the conversion of methanol to olefins (MTO). Besides, the external acid-sites in a relatively relaxed microenvironment are more favorable to catalyze aromatic-alkylation than those inside channel where the strong diffusion/space restriction to aromatic-molecules but foments MTO sidereaction. Our work may provide a theoretical guidance for improving the methanol alkylation-efficiency in this reaction system.

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Heterogeneous Friedel–Crafts Alkylation

Nishimura

Dasireddy²,

Joseph³

et al. 2023

Industrial Arene Chemistry

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New Process for 2,6-Dimethylnaphthalene Synthesis by Using C₁₀ Aromatics as Solvent and Transmethylation-Agentia: High-Efficiency and Peculiar Subarea-Catalysis over Shape-Selective ZSM-5/Beta Catalyst

Cited by 12 publications

References 46 publications

Methylation of Naphthalene with Methanol over the Al-Modified SiO₂ Zeolite Catalysts

Methylation of Naphthalene with Methanol over the Al-Modified SiO₂ Zeolite Catalysts

Insight into the Alkylation‐Efficiency of Methanol with Toluene over HZSM‐5 Zeolite II: Acidic Properties also Significantly Affects Reacting‐Pathways

Heterogeneous Friedel–Crafts Alkylation

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New Process for 2,6-Dimethylnaphthalene Synthesis by Using C10 Aromatics as Solvent and Transmethylation-Agentia: High-Efficiency and Peculiar Subarea-Catalysis over Shape-Selective ZSM-5/Beta Catalyst

Cited by 12 publications

References 46 publications

Methylation of Naphthalene with Methanol over the Al-Modified SiO2 Zeolite Catalysts

Methylation of Naphthalene with Methanol over the Al-Modified SiO2 Zeolite Catalysts

Insight into the Alkylation‐Efficiency of Methanol with Toluene over HZSM‐5 Zeolite II: Acidic Properties also Significantly Affects Reacting‐Pathways

Heterogeneous Friedel–Crafts Alkylation

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Product

Resources

About

New Process for 2,6-Dimethylnaphthalene Synthesis by Using C₁₀ Aromatics as Solvent and Transmethylation-Agentia: High-Efficiency and Peculiar Subarea-Catalysis over Shape-Selective ZSM-5/Beta Catalyst

Methylation of Naphthalene with Methanol over the Al-Modified SiO₂ Zeolite Catalysts

Methylation of Naphthalene with Methanol over the Al-Modified SiO₂ Zeolite Catalysts