Properties of degraded cellulose in cadoxin

O'Donohue, S. J.

January 1987

No description available.

547

Cellulose solvent chemistry

Solid-liquid interactions in the wet massing stage of pharmaceutical granulation

Parker, Michael Davis

January 1989

No description available.

615.1

Cellulose powder binding

Thermoodynamic properties and characterisation of pharmaceutical materials

Sadeghnejad, G. R.

January 1985

No description available.

615.1

Cellulose milled products

Optimisation de la nitration et de la dépolymérisation de la cellulose

Petit, Fabien

15 December 2008

Résumé / Abstract

Nitration

Dépolymérisation

Cellulose

Rapid pyrolysis of cellulose

Hajaligol, Mohammad R

January 1981

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 1981. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND SCIENCE / Includes bibliographical references. / by Mohammad R. Hajaligol. / Ph.D.

Chemical Engineering.

Pyrolysis

Cellulose

Studies on cellulase production with pure and mixed fungal fermentations

Duff, Sheldon Joseph Blaine, 1956-

January 1986

No description available.

Trichoderma

Lignin

Cellulose

Surface adsorption on regenerated cellulose : an inverse gas chromatographic study

Katz, Shelley.

January 1979

No description available.

Gas chromatography.

Cellulose.

Characterization and adsorption of the cellulase components from Trichoderma reesei

Kyriacou, Andreas

January 1987

No description available.

Fungal enzymes

Cellulose

Quantification and reactivity of cellulose reducing ends : implication for cellulose

Kongruang, Sasithorn

28 October 2003

The primary purpose of this study was to (1) develop methods for the analysis of and (2) provide information on the chemical nature of reducing ends in typical cellulose substrates used for the study of cellulolytic enzymes. The studies were designed such that values obtained for cellulose substrates were compared with those obtained for a series of soluble cellooligosaccharides. The initial phase of the study tested the validity of using established colorimetric reducing sugar assays, developed for the measurement of reducing sugars in solution, for the quantification of reducing ends on insoluble substrates. The results demonstrate that published methods give widely differing values for the number of reducing ends per unit weight cellulose. The Cu⁺⁺-based assay, using bicinchoninic acid (BCA) as a color yielding chelator of Cu⁺, is shown to provide values that appear most consistent the properties of the substrates. A method was developed using the Cu⁺⁺-BCA reagent, following a mild sodium borohydride treatment, to provide an estimate of the number of solvent accessible reducing ends on insoluble substrates. The kinetics of sodium borohydride reduction of reducing ends on crystalline cellulose, amorphous cellulose and soluble cellooligosaccharides were compared in order to ascertain the relative reactivity of these reducing ends. The apparent second order rate constants for the reduction of reducing ends associated with the crystalline celluloses were significantly lower than those for the reduction of reducing ends associated with either the insoluble amorphous celluloses or the soluble cellooligosaccharides. These results indicate the reducing ends associated with crystalline celluloses are not extended out from the surface as though mimicking solution phase reducing ends. The relevance of this, as well as the other results, to the behavior of cellulolytic enzymes is discussed. The final phase of the study was the demonstration of both a reducing sugar-based and a viscositybased assay for the detection of a prototypical polysaccharide depolymerizing glycosyl hydrolase, polygalacturonase. / Graduation date: 2004

Cellulose -- Biodegradation

Biomass energy

Preparation of interpenetrating polymer networks for improved cellulose ester plastics

Ho, Shih-Wei

14 December 1998

Graduation date: 1999

Polymer networks

Cellulose esters