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Mesoporous poly(ionic liquid) solid acid for sequential dehydration of sorbitol to isosorbide

Danping Yuan, Fukui Xiao, Ning Zhao, Cunbao Deng, Xin Huang, Hao Zhang, Qianmin Yang, Yonggang Qiao

2023Chemical Engineering Journal29 citationsDOIOpen Access PDF

Abstract

The catalytic conversion of the biomass platform compound sorbitol to isosorbide is an important reaction for the production of relevant renewable chemicals. The development of highly efficient heterogeneous catalyst materials offers promising perspectives for the sorbitol dehydration reaction. The complex competitive reactions, such as degradation and polymerization, are still a major challenge to obtain isosorbide in high yield. In this work, a series of ionic liquid functionalized polymer catalysts, P-[C 3/4 R]-SF, were successfully prepared by hydrothermal synthesis, which has a high surface area and strong acidity. And the catalysts were fully characterized by the N 2 sorption–desorption isotherms, elemental analysis, water adsorption isotherms, FT-IR, TGA and 31 P NMR, etc. As a result, the as-prepared P-[C 3/4 R]-SF catalysts exhibited excellent catalytic activity and stability under mild reaction condition (140 °C, 6 h). The yield of isosorbide is up to 75 %, and it still has good catalytic activity after five cycles. This work provides a synthesis method of ionic liquid functionalized polymer catalyst and its application in sorbitol dehydration reaction.

Topics & Concepts

IsosorbideCatalysisIonic liquidSorbitolMesoporous materialChemistrySorptionYield (engineering)Dehydration reactionAdsorptionDesorptionDehydrationChemical engineeringOrganic chemistryInorganic chemistryMaterials scienceMetallurgyEngineeringBiochemistryCatalysis for Biomass ConversionIonic liquids properties and applicationsMesoporous Materials and Catalysis
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