Molybdenum arsenate crystal: A highly efficient and recyclable catalyst for hydrolysis of ethylene carbonate

•The molybdenum arsenate crystal can provide a suitable catalyst for hydrolysis of ester reactions.•The heterogeneous catalyst displayed high catalytic activity for hydrolysis of ethylene carbonate reactions.•The catalyst can be simply recovered and reused without significant loss of catalytic activ...

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Published inApplied catalysis. A, General Vol. 471; pp. 50 - 55
Main Authors Zhao, Zhifeng, Ding, Yuanzhu, Bi, Jiancong, Su, Zhanhua, Cai, Qinghai, Gao, Limin, Zhou, Baibin
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 10.02.2014
Elsevier
Subjects
Arsenates
Carbonates
Catalysis
Catalysts
Chemistry
Emission analysis
Ethylene
Ethylene glycol
Exact sciences and technology
General and physical chemistry
Heterogeneous catalysis
Hydrolysis
Inductively coupled plasma
Molybdenum
POMs crystal
Spectroscopy
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Hydrolysis
Heterogeneous catalysis
Ethylene glycol
POMs crystal
Arsenates
Crystals
Recyclable catalyst
Transition metal
Carbonates
Molybdenum
Glycol
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Abstract •The molybdenum arsenate crystal can provide a suitable catalyst for hydrolysis of ester reactions.•The heterogeneous catalyst displayed high catalytic activity for hydrolysis of ethylene carbonate reactions.•The catalyst can be simply recovered and reused without significant loss of catalytic activity.•The catalyst gave 96.5% conversion under optimized conditions. A simple one-step hydrothermal reaction was employed to synthesize the molybdenum arsenate crystallite catalyst, [{Cu(imi)2}3As3Mo3O15]·H2O (1) (imi=imidazole). The catalyst was characterized using X-ray crystallographic analyses, FT-IR, TGA, XRD, ICP-AES, NH3-TPD and BET techniques. Moreover, we performed evaluation on its catalytic activity towards the hydrolysis of ethylene carbonate to produce ethylene glycol. Interestingly, the conversion of this reaction reaches 96.5% and the selectivity is close to 100% at optimum conditions. No polyoxometalate leaching or framework decomposition was observed and the catalyst can be recovered and reused with slight loss of reactivity under identical reaction conditions.
AbstractList A simple one-step hydrothermal reaction was employed to synthesize the molybdenum arsenate crystallite catalyst, [{Cu(imi)2}3As3Mo3O15].H2O (1) (imi = imidazole). The catalyst was characterized using X-ray crystallographic analyses, FT-IR, TGA, XRD, ICP-AES, NH3-TPD and BET techniques. Moreover, we performed evaluation on its catalytic activity towards the hydrolysis of ethylene carbonate to produce ethylene glycol. Interestingly, the conversion of this reaction reaches 96.5% and the selectivity is close to 100% at optimum conditions. No polyoxometalate leaching or framework decomposition was observed and the catalyst can be recovered and reused with slight loss of reactivity under identical reaction conditions.
A simple one-step hydrothermal reaction was employed to synthesize the molybdenum arsenate crystallite catalyst, [{Cu(imi) sub(2)} sub(3)As sub(3)Mo sub(3)O sub(15)][middot]H sub(2)O (1) (imi = imidazole). The catalyst was characterized using X-ray crystallographic analyses, FT-IR, TGA, XRD, ICP-AES, NH sub(3)-TPD and BET techniques. Moreover, we performed evaluation on its catalytic activity towards the hydrolysis of ethylene carbonate to produce ethylene glycol. Interestingly, the conversion of this reaction reaches 96.5% and the selectivity is close to 100% at optimum conditions. No polyoxometalate leaching or framework decomposition was observed and the catalyst can be recovered and reused with slight loss of reactivity under identical reaction conditions.
•The molybdenum arsenate crystal can provide a suitable catalyst for hydrolysis of ester reactions.•The heterogeneous catalyst displayed high catalytic activity for hydrolysis of ethylene carbonate reactions.•The catalyst can be simply recovered and reused without significant loss of catalytic activity.•The catalyst gave 96.5% conversion under optimized conditions. A simple one-step hydrothermal reaction was employed to synthesize the molybdenum arsenate crystallite catalyst, [{Cu(imi)2}3As3Mo3O15]·H2O (1) (imi=imidazole). The catalyst was characterized using X-ray crystallographic analyses, FT-IR, TGA, XRD, ICP-AES, NH3-TPD and BET techniques. Moreover, we performed evaluation on its catalytic activity towards the hydrolysis of ethylene carbonate to produce ethylene glycol. Interestingly, the conversion of this reaction reaches 96.5% and the selectivity is close to 100% at optimum conditions. No polyoxometalate leaching or framework decomposition was observed and the catalyst can be recovered and reused with slight loss of reactivity under identical reaction conditions.
Author Gao, Limin
Su, Zhanhua
Cai, Qinghai
Bi, Jiancong
Zhao, Zhifeng
Zhou, Baibin
Ding, Yuanzhu
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Keywords Hydrolysis
Heterogeneous catalysis
Ethylene glycol
POMs crystal
Arsenates
Crystals
Recyclable catalyst
Transition metal
Carbonates
Molybdenum
Glycol
Language English
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Snippet •The molybdenum arsenate crystal can provide a suitable catalyst for hydrolysis of ester reactions.•The heterogeneous catalyst displayed high catalytic...
A simple one-step hydrothermal reaction was employed to synthesize the molybdenum arsenate crystallite catalyst, [{Cu(imi)2}3As3Mo3O15].H2O (1) (imi =...
A simple one-step hydrothermal reaction was employed to synthesize the molybdenum arsenate crystallite catalyst, [{Cu(imi) sub(2)} sub(3)As sub(3)Mo sub(3)O...
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SubjectTerms Arsenates
Carbonates
Catalysis
Catalysts
Chemistry
Emission analysis
Ethylene
Ethylene glycol
Exact sciences and technology
General and physical chemistry
Heterogeneous catalysis
Hydrolysis
Inductively coupled plasma
Molybdenum
POMs crystal
Spectroscopy
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Title Molybdenum arsenate crystal: A highly efficient and recyclable catalyst for hydrolysis of ethylene carbonate
URI https://dx.doi.org/10.1016/j.apcata.2013.11.028
https://search.proquest.com/docview/1530985137
https://search.proquest.com/docview/1551098344
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