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Sub/supercritical carbon dioxide induced phase switching for the reaction and separation in ILs/methanol 被引量:1

Sub/supercritical carbon dioxide induced phase switching for the reaction and separation in ILs/methanol
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摘要 Separation of products from ionic liquid(IL) solvents is one of the main challenges that hinder their utilizations. In this study, the production of γ-valerolactone(GVL) by selective hydrogenation of α-angelica lactone(AL) and separation of the products from the IL solvent were carried out by using subcritical CO_2 as a "switch" at room temperature. After the mixture was separated into two phases by subcritical CO_2, AL and nano Pd/C catalyst were only found in the lower IL-rich phase, GVL was produced with quantitative yield and enriched in the upper methanolrich phase. Pure GVL can be obtained by depressurizing to release CO_2 and evaporation to remove methanol of the upper phase, the lower phase containing IL, catalyst and methanol can be recycled for the next reaction. The strategy may provide a new approach to produce and separate products from IL solvents at mild conditions. Separation of products from ionic liquid(IL) solvents is one of the main challenges that hinder their utilizations. In this study, the production of γ-valerolactone(GVL) by selective hydrogenation of α-angelica lactone(AL) and separation of the products from the IL solvent were carried out by using subcritical CO_2 as a "switch" at room temperature. After the mixture was separated into two phases by subcritical CO_2, AL and nano Pd/C catalyst were only found in the lower IL-rich phase, GVL was produced with quantitative yield and enriched in the upper methanolrich phase. Pure GVL can be obtained by depressurizing to release CO_2 and evaporation to remove methanol of the upper phase, the lower phase containing IL, catalyst and methanol can be recycled for the next reaction. The strategy may provide a new approach to produce and separate products from IL solvents at mild conditions.
出处 《Green Energy & Environment》 SCIE 2016年第2期144-148,共5页 绿色能源与环境(英文版)
基金 supported by International S&T Cooperation Program of China(2014DFA61670) External Cooperation Program of BIC,Chinese Academy of Sciences(GJHZ201306) National Natural Science Foundation of China(No.21276260,21576269,21476245,21406230)
关键词 SEPARATION Ionic liquids Selective hydrogenation Mild condition Subcritical CO2 Separation Ionic liquids Selective hydrogenation Mild condition Subcritical CO_2
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