Ion-exchange chromatography of the main reaction products of the catalytic oxidation of d-glucose and d-gluconic acid

The pH effect on the Pt-catalyzed selective heterogeneous oxidation of D-glucose to D-gluconic acid was studied. The oxidation reactions were performed in the pH range 2 to 9 in a batch reactor using 5% Pt/C as the catalyst while monitoring the progress of the oxidation reaction. Accurate analysis o

The hydrothermolysis of cellobiose in the range 180-249" has been studied. Kinetic analysis of the reaction showed that 60% of the cellobiose is converted into D-glucose, and 40% into other products. The rate (k,) of cellobiose disintegration is approximately eight times that (k2) of D-glucose. Thus

Ahstraet--In situ reflectance infrared spectroscopic techniques (under the SPAIRS and SNIFTIRS variants) have been applied to the investigation of the electrooxidation process of p-glucose at platinum electrodes in alkaline medium. Various reactive or poisoning intermediates were identified and thei

## Note The oxidation of 3-deoxy-D-erythro-hexos-2-ulose ("3-deoxyglucosone") to 3deoxy-D-erythro-2-hexulosonic acid ("2-keto-3-deoxy-D-gluconate") by D-glucase oxidase" 3-Deoxy-D-erJ,t/zro-3-hexulosonic acid ("2-heto-3-deoxy-D-glucollic acid", 2) is a bacterial metabolite that may arise from D-gl