含贵金属催化剂水解氧化纤维素二糖的研究

Reactions Pub Date : 2022-11-16 DOI:10.3390/reactions3040039
O. Manaenkov, O. Kislitsa, E. Ratkevich, Yu. Kosivtsov, V. Sapunov, V. Matveeva
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引用次数: 0

摘要

对双糖水解氧化过程的研究是开发直接将植物多糖(主要是纤维素)转化为醛酸和醛酸的技术的第一步,醛酸和醛酸广泛应用于化学合成和各种工业。在这项研究中,提出了基于高交联聚苯乙烯(HPS)和贵金属(Pt, Au, Ru和Pd)的多孔基质的多相催化剂,用于纤维素二糖水解氧化成葡萄糖酸和葡萄糖酸。采用低温氮气吸附、氢化学吸附、电子显微镜等方法对催化剂进行了表征。特别是,研究表明,含pt催化剂表面平均含有6倍以上的活性中心,这使得它更有希望用于该反应。在145℃,O2压力为5 bar,底物/催化剂质量比为4/1的条件下,葡萄糖酸和葡萄糖酸的产率分别达到21.6和63.4%。在此基础上,建立了3% Pt/HPS MN270存在下纤维素二糖水解氧化动力学的数学模型,并进行了参数估计。得到了纤维素二糖水解氧化动力学的形式化描述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrolytic Oxidation of Cellobiose Using Catalysts Containing Noble Metals
Studies of the processes of the hydrolytic oxidation of disaccharides are the first step towards the development of technologies for the direct conversion of plant polysaccharides, primarily cellulose, into aldonic and aldaric acids, which are widely used in chemical synthesis and various industries. In this study, heterogeneous catalysts based on a porous matrix of hypercrosslinked polystyrene (HPS) and noble metals (Pt, Au, Ru, and Pd) were proposed for the hydrolytic oxidation of cellobiose to gluconic and glucaric acids. The catalysts were characterized using low-temperature nitrogen adsorption, hydrogen chemisorption, electron microscopy, and other methods. In particular, it was shown that the Pt-containing catalyst contained, on average, six times more active centers on the surface, which made it more promising for use in this reaction. At a temperature of 145 °C, an O2 pressure of 5 bars, and a substrate/catalyst weight ratio of 4/1, the yields of gluconic and glucaric acids reached 21.6 and 63.4%, respectively. Based on the data obtained, the mathematical model of the cellobiose hydrolytic oxidation kinetics in the presence of 3% Pt/HPS MN270 was developed, and the parameter estimation was carried out. The formal description of the kinetics of cellobiose hydrolytic oxidation was obtained.
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