An investigation of the fiber samples with various amounts of lignin, hemicelluloses and cellulose was conducted by means of dye adsorption, spectrometric and chemical analyses. Five fiber samples were prepared by the oxidation of unbleached Norway spruce thermo-mechanical pulp with acidic potassium permanganate solution. Each sample was oxidized with defined amount of KMnO 4 and the degree of oxidation was determined as kappa number. Fibers were additionally characterized by conductometric titration, the determination of hemicelluloses and infrared spectrometry. Sorption of various types of dye, namely Methylene Blue (MB), Crystal Violet (CV) and Astra Blue (AB) on the fiber surface was studied and compared to the kappa number and other fiber characteristics. The adsorption of MB and CV is found to follow the amount of anionic (carboxylic) groups, which at first increase and later decrease toward the final stages of oxidation. The behavior of AB is nearly the opposite, its adsorption increases with the depletion of lignin and carboxylate groups, pointing to a different mechanism of AB binding on fibers.
Unbleached TMP spruce fibers were stepwise delignified by KMnO 4 /H 2 SO 4 and five partly delignified samples were obtained. Fibers were characterized in terms of carboxylic groups, lignin and hemicelluloses content. IGC measurements were performed in the untreated fibers and in the five delignified fiber samples, as well as in microcrystalline cellulose (MCC). Different parameters, such as the dispersive component of the surface free energy (c a of the acidic probes decrease with the delignification whereas those of the basic probes increase, pointing to a rather acidic character of the fibers due to the increase of the relative amount of the carbohydrates. The values for MCC corroborate these findings. Despite the substantial variation in the carboxylic group content during delignification, no clear tendencies were detected regarding the affinity with the basic probes.
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