Novel synthesis of vanadium phosphorus/ cerium promoted manganese oxide (VPO/Ce-OMS-2) nanocomposite as an efficient and selective catalyst for the aerobic oxidative coupling of benzyl alcohol and aniline to imine in the liquid phase

IF 2.1 3区 化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR
Elham Shahbazi , Vahid Mahdavi
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Abstract

In this investigation, the VPO/Ce-OMS-2 composite was synthesized via the mechanochemical method and it was employed for the synthesis of imine in the liquid phase through a two-step process of oxidation of benzyl alcohol and subsequent condensation with aniline using air as an oxidant. The composite was synthesized with different mass ratios of (1:1), (1.5:1), (2:1) and (2.5:1). The effect of the VPO/Ce-OMS-2 mass ratio on catalyst activity has been investigated. As the mass ratio increases from (1:1) to (2:1), the benzyl alcohol conversion gradually increases, reaching 93% at a (2:1) mass ratio. Among the synthesized samples, the VPO/Ce-OMS-2(2:1) composite exhibited the highest selectivity towards imine formation and conversion of benzyl alcohol. Various techniques, such as XRD, FT-IR, BET, FESEM, EDX, DRS, NH3-TPD, and HRTEM, were utilized to characterize the catalysts. Results indicated that the composite synthesized with a (2:1) mass ratio has a favorable surface area, a mixture of micro-meso structures, and a high number of acidic sites, as confirmed by BET-BJH and NH3-TPD techniques. The DRS analysis demonstrated that the interaction between the two catalysts, VPO and Ce-OMS-2, enhances the selectivity for the desired product. The results clearly show the synergism effect in the combination of components VPO and Ce-OMS-2 and improving the activity and selectivity of the synthesized nanocomposite. The effects of reaction temperature, reaction time, solvents, VPO/Ce-OMS-2 mass ratio, catalyst amount, and reusability were studied. Recycling results for the VPO/Ce-OMS-2(2:1) composite show that the benzyl alcohol conversion decreases slightly after five cycles of use, and its stability is almost maintained. Optimizing the reaction conditions (0.2 g catalyst, VPO/Ce-OMS-2 mass ratio (2:1), solvent toluene, reaction temperature 90°C, and t = 8 h) resulted in a 93% conversion of benzyl alcohol with complete selectivity for the imine.

Abstract Image

新型合成钒磷/铈促进氧化锰(VPO/Ce-OMS-2)纳米复合材料,作为一种高效、选择性催化剂,用于在液相中将苯甲醇和苯胺有氧氧化偶联成亚胺
本研究采用机械化学法合成了 VPO/Ce-OMS-2 复合材料,并以空气为氧化剂,通过苯甲醇氧化和苯胺缩合两步法在液相中合成亚胺。以 (1:1)、(1.5:1)、(2:1) 和 (2.5:1) 的不同质量比合成了复合材料。研究了 VPO/Ce-OMS-2 质量比对催化剂活性的影响。随着质量比从 (1:1) 增加到 (2:1),苯甲醇的转化率逐渐增加,在质量比为 (2:1) 时达到 93%。在合成的样品中,VPO/Ce-OMS-2(2:1)复合材料对亚胺的形成和苯甲醇的转化具有最高的选择性。利用 XRD、FT-IR、BET、FESEM、EDX、DRS、NH3-TPD 和 HRTEM 等多种技术对催化剂进行了表征。结果表明,BET-BJH 和 NH3-TPD 技术证实,以(2:1)质量比合成的复合材料具有良好的比表面积、微介质混合结构和大量酸性位点。DRS 分析表明,VPO 和 Ce-OMS-2 这两种催化剂之间的相互作用提高了对所需产物的选择性。结果清楚地表明,VPO 和 Ce-OMS-2 两种成分的组合具有协同效应,提高了合成纳米复合材料的活性和选择性。研究了反应温度、反应时间、溶剂、VPO/Ce-OMS-2 质量比、催化剂用量和可重复使用性的影响。VPO/Ce-OMS-2(2:1) 复合材料的回收结果表明,苯甲醇转化率在使用五个循环后略有下降,但其稳定性基本保持不变。优化反应条件(0.2 克催化剂、VPO/Ce-OMS-2 质量比 (2:1)、溶剂甲苯、反应温度 90°C、t = 8 小时)后,苯甲醇的转化率达到 93%,并对亚胺具有完全的选择性。
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来源期刊
Journal of Organometallic Chemistry
Journal of Organometallic Chemistry 化学-无机化学与核化学
CiteScore
4.40
自引率
8.70%
发文量
221
审稿时长
36 days
期刊介绍: The Journal of Organometallic Chemistry targets original papers dealing with theoretical aspects, structural chemistry, synthesis, physical and chemical properties (including reaction mechanisms), and practical applications of organometallic compounds. Organometallic compounds are defined as compounds that contain metal - carbon bonds. The term metal includes all alkali and alkaline earth metals, all transition metals and the lanthanides and actinides in the Periodic Table. Metalloids including the elements in Group 13 and the heavier members of the Groups 14 - 16 are also included. The term chemistry includes syntheses, characterizations and reaction chemistry of all such compounds. Research reports based on use of organometallic complexes in bioorganometallic chemistry, medicine, material sciences, homogeneous catalysis and energy conversion are also welcome. The scope of the journal has been enlarged to encompass important research on organometallic complexes in bioorganometallic chemistry and material sciences, and of heavier main group elements in organometallic chemistry. The journal also publishes review articles, short communications and notes.
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