Zeolite Y encaged Ru(III) and Fe(III) complexes for oxidation of styrene, cyclohexene, limonene, and α-pinene: An eye-catching impact of H2SO4 on product selectivity

IF 5.062
Dinesh R. Godhani, Haresh D. Nakum, Digvijaysinh K. Parmar, Jignasu P. Mehta, Nisheeth C. Desai
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引用次数: 31

Abstract

A novel Ru(III) and Fe(III) complexes of ligands 1 and/or 2 {where 1 = 2,2′-((1E,1′E)-((azanediylbis(ethane-2,1-diyl))bis(azanylylidene))bis(methanylylidene))diphenol and 2 = 2,2′-((1E,1′E)-((azanediylbis(ethane-2,1-diyl))bis(azanylylidene))bis(methanylylidene)) bis(4-nitrophenol)} have been synthesized as ‘neat’ and zeolite Y encapsulated complexes. These catalysts are characterized by various analytical tools such as FTIR, UV–vis, elemental analysis, ICP-AES, molar conductivity, 1H- and 13C NMR, TGA, SEM, AAS, BET, magnetic susceptibility and powder XRD to endorse the complex formation, absence of peripheral redundant ligands and complexes, conservation of zeolite Y morphology and crystallinity, and the encapsulation of complexes without devastation in the zeolite Y framework. Out of these synthesized catalysts, 5Y is found to be a potent candidate for styrene (Conv. 76.1%, TOF: 2130 h−1), cyclohexene (Conv. 84.4%, TOF: 2351 h−1), limonene (Conv. 81.6%, TOF: 2273 h−1), and α-pinene (Conv. 72.6%, TOF: 2023 h−1) oxidation with high selectivity of respective allylic products excluding the styrene oxidation, which undergoes epoxidation only. The addition of H2SO4 in an identical reaction catalyzed by 5Y not only surge the conversion up to 100% in a short time span with high TOF but also increase the selectivity of respective epoxidation products. This switchover in the selectivities could be credited to the presence of H2SO4 that facilitates the heterolytic OO bond cleavage of metal hydroperoxide and stimulates the epoxidation over allylic oxidation. Furthermore, the results establish that the heterogeneous systems are effortlessly recovered and reused without ample drop in the activity and selectivity.

Abstract Image

Y型沸石包裹Ru(III)和Fe(III)配合物氧化苯乙烯、环己烯、柠檬烯和α-蒎烯:H2SO4对产物选择性的显著影响
合成了一种新型的Ru(III)和Fe(III)配体1和/或2{其中1 = 2,2 ' -((1E, 1E)-((azanediylbis(乙烷-2,1-二基))-((azanediylbis(乙烷-2,1-二基)))-((azanediylbis(乙烷-2,1-二基)))-((azanediylbis(乙烷-2,1-二基))-((azanediylbis(乙烷-2,1-二基))-((azanediylbis)))-(methanylylidene)) -(4-nitrophenol)}的配合物。通过FTIR、UV-vis、元素分析、ICP-AES、摩尔电导率、1H-和13C NMR、TGA、SEM、AAS、BET、磁化率和粉末XRD等多种分析工具对这些催化剂进行了表征,证实了配合物的形成、周边冗余配体和配合物的缺失、Y型沸石的形态和结晶度的保持,以及配合物在Y型沸石框架中的包封性。在这些合成的催化剂中,5Y被发现是苯乙烯(Conv. 76.1%, TOF: 2130 h−1)、环己烯(Conv. 84.4%, TOF: 2351 h−1)、柠檬烯(Conv. 81.6%, TOF: 2273 h−1)和α-蒎烯(Conv. 72.6%, TOF: 2023 h−1)氧化的有力候选物,对各自的烯丙基产物具有高选择性,不包括苯乙烯氧化,苯乙烯只发生环氧化。在5Y催化的相同反应中,H2SO4的加入不仅使转化率在短时间内达到100%,而且具有较高的TOF,而且提高了各自环氧化产物的选择性。这种选择性的转换可以归功于H2SO4的存在,H2SO4促进了金属氢过氧化物的异多元OO键裂解,并刺激了烯丙基氧化的环氧化。此外,结果表明,异构系统可以毫不费力地恢复和重用,而不会大大降低活性和选择性。
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审稿时长
2.8 months
期刊介绍: The Journal of Molecular Catalysis A: Chemical publishes original, rigorous, and scholarly full papers that examine the molecular and atomic aspects of catalytic activation and reaction mechanisms in homogeneous catalysis, heterogeneous catalysis (including supported organometallic catalysis), and computational catalysis.
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