Yuchen Wu , Lei Wang , Xincheng Wang , Yongji Song , Biaohua Chen
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引用次数: 0
摘要
乳酸甲酯(MLA)是一种由生物质碳水化合物制备而成的多功能高价值平台化学品,广泛应用于制药、食品、农药和化妆品等领域。本研究介绍了在温和条件下,通过聚(离子液体)功能化锡/贝塔沸石将糖类一锅催化转化为乳酸甲酯的过程。锡/贝塔沸石是通过浸渍法制备的,然后通过原位自由基聚合法用聚(乙烯基咪唑)([PVIM])进行改性。对聚合物和 Sn 的用量、煅烧温度、反应温度、催化剂用量、底物浓度和反应时间进行了优化。结果表明,3[PVIM]-Sn/Beta 在 140 °C 下反应 8 小时,果糖完全转化,获得了 61.4 % 的 MLA 产率。通过 XRD、BET、傅立叶变换红外光谱、CO-DRIFTS、NH3-TPD 和吡啶-傅立叶变换红外光谱分析,对该化合物的理化性质进行了表征。最后,提出了一种可能的反应机理,即[PVIM]咪唑环的弱路易斯酸性有效调节了活性位点的局部微环境,从而促进了活性位点与糖的电负性氧的相互作用。这项研究可为开发催化生物质转化为平台化学品的固体酸催化剂提供参考。
Conversion of sugars into methyl lactate over poly (ionic liquid)s functionalized Sn/beta zeolites
Methyl lactate (MLA) is a versatile high value platform chemical prepared from biomass carbohydrates, with widely application in the pharmaceutical, food, pesticide, and cosmetics. The current study presented a one-pot catalytic conversion of sugars to MLA over poly (ionic liquid)s functionalized Sn/Beta zeolites under mild conditions. The Sn/Beta zeolites were prepared by an impregnation method, followed by modification with poly (vinyl imidazole) ([PVIM]) via an in-situ free radical polymerization method. Dosages of polymer and Sn, calcination temperature, reaction temperature, catalyst amount, substrate concentration, and reaction times were optimized. Results showed that an MLA yield of 61.4 % was obtained over 3[PVIM]-Sn/Beta with complete conversion of fructose at 140 °C for 8 h. The physicochemical properties were characterized by XRD, BET, FTIR, CO-DRIFTS, NH3-TPD and pyridine-FTIR analysis, indicating the coexistence of Lewis and Brønsted acid sites. Finally, a possible reaction mechanism was proposed that the weak Lewis acidity of imidazole rings of [PVIM] effectively regulated the local microenvironment of active sites, thus promoting the interaction of the active sites with electronegative oxygens of sugars. This study can provide as a reference for the development of solid acid catalysts for the catalytic conversion of biomass to platform chemicals.
期刊介绍:
Catalysis Today focuses on the rapid publication of original invited papers devoted to currently important topics in catalysis and related subjects. The journal only publishes special issues (Proposing a Catalysis Today Special Issue), each of which is supervised by Guest Editors who recruit individual papers and oversee the peer review process. Catalysis Today offers researchers in the field of catalysis in-depth overviews of topical issues.
Both fundamental and applied aspects of catalysis are covered. Subjects such as catalysis of immobilized organometallic and biocatalytic systems are welcome. Subjects related to catalysis such as experimental techniques, adsorption, process technology, synthesis, in situ characterization, computational, theoretical modeling, imaging and others are included if there is a clear relationship to catalysis.
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