Synthesis and Characterization of Thermally Stable Lignosulfonamides

Lignin, a highly aromatic macromolecule building plant cells, and cellulose are two of the most commonly occurring natural polymers. Lignosulfonate is a grade of technical lignin, obtained as a by-product in the paper and wood pulping industries, a result of the used lignin isolation method, i.e., s...

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Published inMolecules (Basel, Switzerland) Vol. 27; no. 21; p. 7231
Main Authors Komisarz, Karolina, Majka, Tomasz M, Kurczab, Monika, Pielichowski, Krzysztof
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 25.10.2022
MDPI
Subjects
Additives
Antibiotics
biocomposites
Biopolymers
Cellulose
chemical modification
Crystals
Enhanced oil recovery
Hydrocarbons
Hydrogels
Lignin
Lignocellulose
lignosulfonate
Lignosulfonates
Manufacturing
Natural polymers
NMR
Nuclear magnetic resonance
Plant cells
Polymers
Pulping
Raw materials
Spectrum analysis
Structure
Sulfite
Sulfites
Sulfonamides
Sulfonation
Sulfur content
Surfactants
Thermal stability
United States
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Summary:Lignin, a highly aromatic macromolecule building plant cells, and cellulose are two of the most commonly occurring natural polymers. Lignosulfonate is a grade of technical lignin, obtained as a by-product in the paper and wood pulping industries, a result of the used lignin isolation method, i.e., sulfite process. In this work, sodium lignosulfonate is used as a starting material to manufacture sulfonamide derivatives of lignin in a two-step modification procedure. Since this direction of the lignin modification is rather rarely investigated and discussed, it makes a good starting point to expand the state of knowledge and explore the properties of lignosulfonamides. Materials obtained after modification underwent characterization by FTIR, SS-NMR, WAXD, SEM, and TGA. Spectroscopic measurements confirmed the incorporation of dihexylamine into the lignin structure and the formation of lignosulfonamide. The crystalline structure of the material was not affected by the modification procedure, as evidenced by the WAXD, with only minute morphological changes of the surface visible on the SEM imaging. The obtained materials were characterized by improved parameters of thermal stability in relation to the raw material. As-prepared sulfonamide lignin derivatives with a potential application as a filler in biopolymeric composites may become a new class of functional, value-added, sustainable additives.
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ISSN:1420-3049
1420-3049
DOI:10.3390/molecules27217231