期刊
CHEMSUSCHEM
卷 6, 期 2, 页码 383-388出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cssc.201200718
关键词
arenes; biomass; homogeneous catalysis; synthesis design; sustainable chemistry
资金
- BP through the Energy Biosciences Institute and in part under contract from the U.S. Department of Energy by its Division of Chemical Sciences, Office of Basic Energy Sciences [DEFG02-90ER14146]
We report the one-pot alkylation of mesitylene with carbohydrate- derived 5-(hydroxymethyl) furfural (HMF) as a step toward diesel-range liquids. Using FeCl3 as a catalyst, HMF is shown to alkylate toluene, xylene, and mesitylene in high yields in CH2Cl2 and MeNO2 solvents. Efforts to extend this reaction to greener or safer solvents showed that most ether-based solvents are unsatisfactory. Acid catalysts (e. g, p-TsOH) also proved to be ineffective. Using formic acid as a reactive solvent, mesitylene could be alkylated to give mesitylmethylfurfural (MMF) starting from fructose with yields up to approximate-ly 70 %. The reaction of fructose with formic acid in the absence of mesitylene gave rise to low yields of the formate ester of HMF, which indicates the stabilizing effect of replacing the hydroxyl substituent with mesityl. The arene also serves as a second phase into which the product is extracted. Even by using formic acid, the mesitylation of less expensive precursors such as glucose and cellulose proceeded only in modest yields (ca. 20%). These simpler substrates were found to undergo mesitylation by using hydrogen chloride/formic acid via the intermediate chloromethylfurfural.
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