Add to ORKGC-(2,3-Dihydroxypropyl)tartronic acid is a major dicarboxylic acid formed during O2-NaOH and O2-NaHCO3 treatment of cellobiose. The observation that this acid is the main reaction product after alkali treatment ofascorbic acid in O2-free medium supports the conclusion that it is formed via an aglycon moiety related to ascorbic acid. Other dicarboxylic acids from cellobiose are oxalic, tartronic, deoxytetraric, C-(hydroxymethyl)tartronic, and succinic acids.The temperature, pH and additions of iron and cobalt salts strongly influence the product composition. The formation of aldobionic acids from cellobiose parallels the formationof aldonic acid end groups during oxygen bleaching of cellulose
Cellulose, one of the most abundant renewable resources, is insoluble in most common solvents but di...
"March 1, 1979.""The Institute of Paper Chemistry, Hugh M. Corbett, research fellow, Norman S. Thomp...
A solution of glucose and glycolic acid in hydrochloric acid gives rise to the alpha- and beta forms...
The title compounds were degraded in 0.099M oxygen-free aqueous NaOH at 25°, and sometimes 45 °. Cel...
C-(2-Hydroxyethyl)tartronic acid is predominant among the dicarboxylic acids and its formation in 12...
The chemical degradations of highly-purified cellotriose, cellotetraose, and cellopentaose in H2O2 a...
The hydrolysis of cellulose model compound D-cellobiose was studied with a series of eight common po...
"July 14, 1977.""The Institute of Paper Chemistry, Norman S. Thompson, senior research associate and...
During oxygen delignification of kraft pulp the alkalinity has a decisive influence upon the selecti...
Ozone bleaching generates carbonyl groups on the cellulose polymer when applied to unbleached kraft ...
Abstract This paper systematically reports the major organic acids produced during cellobiose decomp...
An anhydroisosaccharinic acid obtained in large amounts by end-wise degradation of cellulose in alka...
This paper reports a systematic study on the catalytic effect of alkali and alkaline earth metal (AA...
Dehydroascorbic acid is shown to be converted to 2-(threo-1,2,3-trihydroxypropyl)tartronic acid in a...
Cellobiose was used as a model feedstock to probe the reaction pathways of cellulose to ethylene gly...
Cellulose, one of the most abundant renewable resources, is insoluble in most common solvents but di...
"March 1, 1979.""The Institute of Paper Chemistry, Hugh M. Corbett, research fellow, Norman S. Thomp...
A solution of glucose and glycolic acid in hydrochloric acid gives rise to the alpha- and beta forms...
The title compounds were degraded in 0.099M oxygen-free aqueous NaOH at 25°, and sometimes 45 °. Cel...
C-(2-Hydroxyethyl)tartronic acid is predominant among the dicarboxylic acids and its formation in 12...
The chemical degradations of highly-purified cellotriose, cellotetraose, and cellopentaose in H2O2 a...
The hydrolysis of cellulose model compound D-cellobiose was studied with a series of eight common po...
"July 14, 1977.""The Institute of Paper Chemistry, Norman S. Thompson, senior research associate and...
During oxygen delignification of kraft pulp the alkalinity has a decisive influence upon the selecti...
Ozone bleaching generates carbonyl groups on the cellulose polymer when applied to unbleached kraft ...
Abstract This paper systematically reports the major organic acids produced during cellobiose decomp...
An anhydroisosaccharinic acid obtained in large amounts by end-wise degradation of cellulose in alka...
This paper reports a systematic study on the catalytic effect of alkali and alkaline earth metal (AA...
Dehydroascorbic acid is shown to be converted to 2-(threo-1,2,3-trihydroxypropyl)tartronic acid in a...
Cellobiose was used as a model feedstock to probe the reaction pathways of cellulose to ethylene gly...
Cellulose, one of the most abundant renewable resources, is insoluble in most common solvents but di...
"March 1, 1979.""The Institute of Paper Chemistry, Hugh M. Corbett, research fellow, Norman S. Thomp...
A solution of glucose and glycolic acid in hydrochloric acid gives rise to the alpha- and beta forms...