Conversion of cellobiose into sorbitol in neutral water medium over carbon nanotube-supported ruthenium catalysts

Carbon nanotube (CNT)-supported ruthenium catalysts were studied for the hydrogenation of cellobiose in neutral water medium. The acidity of catalysts and the size of Ru particles played key roles in the conversion of cellobiose to sorbitol. A higher concentration of nitric acid used for CNT pretreatment provided a better sorbitol yield, suggesting an important role of catalyst acidity. The catalysts with larger mean sizes of Ru particles and abundant acidic sites exhibited better sorbitol yields, while those with smaller Ru particles and less acidic sites favored the formation of 3-β-d-glucopyranosyl-d-glucitol. We elucidated that cellobiose was first converted to 3-β-d-glucopyranosyl-d-glucitol via the hydrogenolysis, and then sorbitol was formed through the cleavage of β-1,4-glycosidic bond in 3-β-d-glucopyranosyl-d-glucitol over the catalysts. The catalyst with smaller Ru particles favored the first step but was disadvantageous to the second step due to the less acidity. Smaller Ru particles also accelerated the degradation of sorbitol.

The mean size of Ru nanoparticles and the catalyst acidity are key factors for Ru/CNT-catalyzed hydrogenation of cellobiose to sorbitol in water. 3-β-d-Glucopyranosyl-d-glucitol is a main reaction intermediate.Figure optionsDownload high-quality image (91 K)Download as PowerPoint slide