一种使用路易斯酸沸石对5-(羟甲基)糠醛进行耦合转移氢化和醚化的连续流动策略。

A continuous flow strategy for the coupled transfer hydrogenation and etherification of 5-(hydroxymethyl)furfural using Lewis acid zeolites.

作者信息

Lewis Jennifer D, Van de Vyver Stijn, Crisci Anthony J, Gunther William R, Michaelis Vladimir K, Griffin Robert G, Román-Leshkov Yuriy

机构信息

Department of Chemical Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139 (USA) http://www.romangroup.mit.edu.

出版信息

ChemSusChem. 2014 Aug;7(8):2255-65. doi: 10.1002/cssc.201402100. Epub 2014 Jul 8.

DOI:10.1002/cssc.201402100

PMID:25045144

Abstract

Hf-, Zr- and Sn-Beta zeolites effectively catalyze the coupled transfer hydrogenation and etherification of 5-(hydroxymethyl)furfural with primary and secondary alcohols into 2,5-bis(alkoxymethyl)furans, thus making it possible to generate renewable fuel additives without the use of external hydrogen sources or precious metals. Continuous flow experiments reveal nonuniform changes in the relative deactivation rates of the transfer hydrogenation and etherification reactions, which impact the observed product distribution over time. We found that the catalysts undergo a drastic deactivation for the etherification step while maintaining catalytic activity for the transfer hydrogenation step. (119) Sn and (29) Si magic angle spinning (MAS) NMR studies show that this deactivation can be attributed to changes in the local environment of the metal sites. Additional insights were gained by studying effects of various alcohols and water concentration on the catalytic reactivity.

摘要

铪、锆和锡-β沸石能有效催化5-(羟甲基)糠醛与伯醇和仲醇的耦合转移氢化和醚化反应，生成2,5-双(烷氧基甲基)呋喃，从而无需使用外部氢源或贵金属就能生产可再生燃料添加剂。连续流动实验揭示了转移氢化和醚化反应相对失活速率的不均匀变化，这影响了随时间观察到的产物分布。我们发现，催化剂在醚化步骤中会发生剧烈失活，而在转移氢化步骤中保持催化活性。(119)Sn和(29)Si魔角旋转(MAS)核磁共振研究表明，这种失活可归因于金属位点局部环境的变化。通过研究各种醇和水浓度对催化反应活性的影响，获得了更多见解。

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一种使用路易斯酸沸石对5-(羟甲基)糠醛进行耦合转移氢化和醚化的连续流动策略。

A continuous flow strategy for the coupled transfer hydrogenation and etherification of 5-(hydroxymethyl)furfural using Lewis acid zeolites.

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