Shrikanta Sutradhar scite author profile

A green cement plasticizer was produced in a one-step aerobic oxidation of kraft lignin (KL) in the presence of KOH. In this study, optimizing the reaction conditions led to the maximum carboxylic acid group and charge density of 2.6 mmol/g and 1.9 mequiv/g for oxidized lignin, respectively. The NMR, FTIR, and XPS analyses quantified the alterations in the structure of KL after the oxidation reaction. The molecular weight analysis revealed that lignin depolymerization would depend on the temperature, lignin amount, and KOH concentrations. The oxidized lignin with a higher carboxylic acid group adsorbed on the cement particles more readily than a commercial plasticizer, which increased the flowability of the pastes. The compressive strength of cement was improved much more by using oxidized lignin instead of a commercial plasticizer and lignosulfonate. The current study suggested that the one-pot KOH-mediated oxidation of kraft lignin is a promising approach to producing a green plasticizer for cement application.

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Organic Acid Lignin From Rice Straw in Phenol-Formaldehyde Resin Preparation for Plywood

Sutradhar¹,

Arafat²,

Nayeem³

et al. 2020

Cellulose Chem. Technol.

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Shrikanta Sutradhar

KOH catalyzed oxidation of kraft lignin to produce green fertilizer

Potassium hydroxide pulping of rice straw in biorefinery initiatives

Fractionation of rice straw for producing dissolving pulp in biorefinery concept

A Green Cement Plasticizer from Softwood Kraft Lignin

Organic Acid Lignin From Rice Straw in Phenol-Formaldehyde Resin Preparation for Plywood

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