Effect of Temperature and Reaction Time on the Synthesis of Butadiene Monoepoxide Using Iron Complex as an Efficient Catalyst 


Vol. 18,  No. 1, pp. 51-56, Mar.  2012


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  Abstract

Here, we report an efficient iron complex [((phen)2(H2O)FeIII)2(μ-O)](ClO4)4, that can rapidly epoxidize 1,3-butadiene at -10 ℃ with low catalyst loadings by using commercially available peracetic acid as an oxidant. The main aspect of our study is to investigate the effect of temperature (from -10 to -40 ℃) and time on the epoxidation reaction. The epoxidation reaction was fast and almost completed within 5 min at temperatures above -20 ℃, whereas it became slow at temperatures below -20 ℃. The yield of butadiene monoepoxide (BMO)increased with increasing the reaction time. Generally, when the more butadiene was used, the higher yield was obtained. The highest yield of BMO was 90%.

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  Cite this article

[IEEE Style]

Z. T, K. D, R. CS, S. JJ, "Effect of Temperature and Reaction Time on the Synthesis of Butadiene Monoepoxide Using Iron Complex as an Efficient Catalyst," Clean Technology, vol. 18, no. 1, pp. 51-56, 2012. DOI: .

[ACM Style]

Zong T, Kharismadewi D, Ra CS, and Shim JJ. 2012. Effect of Temperature and Reaction Time on the Synthesis of Butadiene Monoepoxide Using Iron Complex as an Efficient Catalyst. Clean Technology, 18, 1, (2012), 51-56. DOI: .

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