Cashew Phenol Modified Lignosulfonate Strategy for the Preparation of High-performance Dye Dispersants

Lignin-based dye dispersants (LDD), as one of the most common lignin resource end-application product, is difficult to meet the rapidly developing needs of modern fiber dyeing due to their inherent structural defects. The efficient upgrading and modification of LDD is of great significance to the va...

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Bibliographic Details
Published in:International journal of biological macromolecules 2024-12, Vol.283 (Pt 3), p.137611, Article 137611
Main Authors: Shi, Jingjing, Lu, Yanju, Jiang, Jianchun, Xu, Junming
Format: Article
Language:English
Subjects:
Anacardium - chemistry
Cashew phenol
Coloring Agents - chemistry
Lignin - analogs & derivatives
Lignin - chemistry
Lignin dye dispersant
Lignosulfonate
Phenols - chemistry
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Summary:Lignin-based dye dispersants (LDD), as one of the most common lignin resource end-application product, is difficult to meet the rapidly developing needs of modern fiber dyeing due to their inherent structural defects. The efficient upgrading and modification of LDD is of great significance to the value-added application of lignin resources and the expansion of LDD sinking market. In this study, using industrial kraft lignin as raw material, cashew phenol was introduced into lignosulfonate in the form of CC bonds by ingenious utilizing the structural characteristics of lignin disordered condensation. Aromatic ring in cashew phenol could provide sufficient sulfonic acid group grafting sites, while C15 fatty chain could enhance steric hindrance effect. In the dispersibility test, the dispersing power showed 99.09 %, and the low/high temperature dispersion (LTD/HTD) were 5 s/4 and 6 s/4, respectively, higher than the dispersibility level of LDD in the market, has great commercial value and industrial potential. Combined with FTIR, 1H NMR, GPC and ICP, the structural properties of lignin were analyzed in detail, and the degree of sulfonation-condensation was balanced-optimized. The CC bond condensation process between cashew phenol and lignin was revealed, and the mechanism of action on dye particles was elucidated. [Display omitted] •Cashew phenol modification strategy to upgrade lignosulfonate dye dispersants.•Aromatic ring in cashew phenol offer sulfonic acid group grafting sites, fat chain brings excellent spatial effect.•Evaluated the structure-activity relationship between sulfonation-condensation degree and dispersion index.
ISSN:0141-8130
1879-0003
1879-0003
DOI:10.1016/j.ijbiomac.2024.137611