Core-Magnetic Composites Catalysts for the Valorization and Up-grading of the Renewable Feedstocks: A Minireview

V. Coman
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引用次数: 1

Abstract

Core-magnetic composites offer unique possibilities to accommodate adequate amounts of acid-base and redox functional sites and hence to catalyze the biomass conversion reactions in a one-pot way. Moreover, due to the dual functionality, the core-magnetic composites provide a bridge between homogeneous and heterogeneous catalysis. Hence, this minireview aims to offer a comprehensive account of remarkable recent applications of core-magnetic composites in the catalytic processes for biomass valorization. A critical evaluation of synthetic methodologies utilized for the production of the magnetic nanoparticles, characterization techniques and catalytic applications is provided. The benefits of their utilization are exemplified by most representative examples of one-pot transformation of cellulose and upgrading processes. Other recent examples constitute the lignin fragmentation on magnetic iron oxide-based catalysts and the renewable crude glycerol up-grading using core-shell magnetic iron oxide bio-based materials. The review provides important information on the distinctive properties of the functionalized core-magnetic composites. Moreover, this review offers useful information affording a largescale production development, in terms of catalyst and reaction conditions, tailoring selectivity, and the potential to regenerate the catalysts.
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可再生原料增值升级用核磁复合催化剂的研究进展
核磁复合材料提供了独特的可能性,以容纳足够数量的酸碱和氧化还原功能位点,从而以一锅的方式催化生物质转化反应。此外,由于双重功能,核磁复合材料在均相和非均相催化之间提供了一座桥梁。因此,这篇综述的目的是全面介绍近年来核磁复合材料在生物质增值催化过程中的显著应用。提供了用于生产磁性纳米颗粒,表征技术和催化应用的合成方法的关键评估。纤维素的一次转化和升级过程的最具代表性的例子说明了它们利用的好处。其他最近的例子包括基于磁性氧化铁的催化剂上的木质素破碎和使用核壳磁性氧化铁生物基材料的可再生粗甘油升级。这一综述为功能化核磁复合材料的独特性能提供了重要的信息。此外,本综述还从催化剂和反应条件、裁剪选择性以及催化剂再生潜力等方面为大规模生产提供了有用的信息。
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