期刊
APPLIED CATALYSIS B-ENVIRONMENTAL
卷 298, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apcatb.2021.120575
关键词
Aluminum phosphate; Acetalization; Reductive etherification; Biomass valorization; Fuel bio-additive
资金
- China Scholarship Council [201908330324]
- Department of Chemistry, Technical University of Denmark
The study showed that weakly acidic APO-5 (Al/P = 1) efficiently catalyzed the transformation of furfural into furfuryl acetals (FAs), while more acidic APO-5 (Al/P = 1.5) was suitable for the synthesis of furfuryl alcohol ethers (FAEs). The addition of a co-solvent promoted the reaction pathway and improved reaction efficiency.
Aluminum phosphates (APO-5s) were synthesized and evaluated as heterogeneous catalysts for the valorization of furfural to furfuryl acetals (FAs) and furfuryl alcohol ethers (FAEs). Weakly acidic APO-5 (Al/P = 1) exhibited excellent catalytic performance with 96 % FA yield in ethylene glycol, and analysis of the acetalization reaction supported that adsorption and acidic catalyst sites co-catalyzed the reaction. In addition, the catalyst was stable and reusable though with some deactivation after five recycles. Oppositely, more acidic APO-5 (Al/P = 1.5) catalyzed the one-pot synthesis of FAE with 55 % yield in 2-propanol with unchanged performance in three successive reactions after intermediate calcination. The reaction pathway for the direct hydrogenolysis of acetal into ether by catalytic transfer hydrogenation and etherification was promoted by the co-solvent 1,4-dioxane, possibly by hydrogen bonding. The study demonstrates a simple approach to design APO catalyst systems allowing very efficient and highly selective valorization of furfural to fuel bio-additives.
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