• Title/Summary/Keyword: Epoxidation.

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Syntheses of FAPO-5 Molecular Sieves with Microwave Irradiation and Their Characterization (마이크로파 가열에 의한 FAPO-5 분자체의 합성 및 특성 분석)

  • Jang, Jong-San;Lee, Jin-Ho;Jeong, Seong-Hwa;Hwang, Jin-Su
    • Journal of the Korean Chemical Society
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    • v.50 no.1
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    • pp.53-59
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    • 2006
  • .FAPO-5 molecular sieves were synthesized starting from the same reactant gel at 170 oC using microwave irradiation technique and conventional hydrothermal reaction. The FAPO-5 molecular sieves were characterized by several techniques such as SEM, FTIR, UV/Vis, and ESR. Moreover, the oxidation of styrene over FAPO-5s was carried out, and compared to check the oxidation and epoxidation ability of the two FAPO-5s. FAPO-5 can be obtained easily by microwave irradiation within 15 min at 170oC, whereas FAPO-5 synthesis is completed in 6 h by conventional electric heating, confirming the acceleration about 20 times by microwave technique. There are no appreciable differences between two FAPO-5s in surface area and coordination state of iron. The FAPO-5 synthesized by microwave irradiation shows higher epoxide selectivity in the styrene epoxidation, which may be explained by the higher hydrophobicity of the catalyst.

A Kinetic Study of Allylchloride Epoxidation using Titanium Silicalite-1 Catalyst (Titanium Silicalite-1 촉매를 이용한 Allylchloride 에폭시화 반응: 속도론적 고찰)

  • Yang, Seung-Tae;Choi, Jung-Sik;Kwon, Young-Chul;Lee, Sang-Wook;Ahn, Wha-Seung
    • Korean Chemical Engineering Research
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    • v.46 no.1
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    • pp.142-146
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    • 2008
  • Titanium silicalite-1 catalyst was prepared using a $SiO_2-TiO_2$ xerogel and applied to allylchloride (ALC) epoxidation by $H_2O_2$ as oxidant in a batch reactor. The reaction temperature was varied from 25 to $55^{\circ}C$, and the concentrations of ALC and $H_2O_2$ were changed from 0.2 to 3 M and from 0.2 to 1.5 M, respectively. The kinetic data obtained were applied to the power rate law, Eley-Rideal, and a Langmuir-Hinshelwood model, and power rate law fits the experimental data best. Activation energy was 27.9 kJ/mol, and the reaction orders with respect to $H_2O_2$ and ALC were determined to be 0.41 and 0.52, respectively.

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

  • Zong, Tongqiang;Kharismadewi, Dian;Ra, Choon-Sup;Shim, Jae-Jin
    • Clean Technology
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    • v.18 no.1
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    • pp.51-56
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    • 2012
  • Here, we report an efficient iron complex $[((phen){_2}(H_2O)Fe^{III}){_2}({\mu}-O)](ClO_4){_4}$, that can rapidly epoxidize 1,3-butadiene at $-10^{\circ}C$ 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 $-40^{\circ}C$) and time on the epoxidation reaction. The epoxidation reaction was fast and almost completed within 5 min at temperatures above $-20^{\circ}C$, whereas it became slow at temperatures below $-20^{\circ}C$. 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%.

Changes in Gibberellin Hydroxylase Activity during Seed Maturation of Phaseolus vulgaris L. I. $3{\beta}-Hydroxylase$ Converting $GA_{20}\;to\;GA_1$ (강낭콩 (Phaseolus vulgaris L.) 종자성숙에 따른 지베렐린 수산화효소 활성의 변화 I. $GA_{20}을\;GA_1$으로 변환시키는 $3{\beta}-Hydroxylase$)

  • 정상수
    • Journal of Plant Biology
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    • v.35 no.3
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    • pp.185-190
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    • 1992
  • Changes in activity of gibberellin $3{\beta}-hydroxylase$ which converts $[^3H]GA_{20}\;to\;GA_1$ were studied during seed maturation using partially purified enzyme preparations of two cultivars, Kentucky Wonder (normal) and Masterpiece (dwarf) of Phaseolus vulgaris. The specific activity of $3{\beta}-hydroxylase$ per seed reached maximum at 21 days after flowering and subsequently decreased during seed maturation in both cultivars. The ratios of conversion of $[17-^{13}C,\;^3H_2]GA_{20}\;to\;GA_1.\;GA_5,\;and\;GA_6$ by the same amount of $3{\beta}-hydroxylase$ were almost identical. Epoxidation of $GA_5\;to\;GA_6$ is also catalyzed by the partially purified $3{\beta}-hydroxylase$ preparation(Kobayashi et aI., 1991) and the conversion was inhibited by the substrates of $3{\beta}-hydroxylase$. These results suggest that the same enzyme might catalyze $3{\beta}-hydroxylase{\;}of{\;}GA_{20}\;to\;GA_1$ and epoxidation of $GA_5\;to\;GA_6$..

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