Synthesis and characterization of biomass lignin-based PVA super-absorbent hydrogel

The traditional polyvinyl alcohol composite hydrogel exhibited poor swelling and mechanical properties, which limited its application. To solve these issues, we use biomass lignin as raw material, PVA as matrix template and epichlorohydrin as cross-linker to prepare the Lignin-PVA super-absorbent hy...

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Bibliographic Details
Published in:International journal of biological macromolecules 2019-11, Vol.140, p.538-545
Main Authors: Wu, Linjun, Huang, Siqi, Zheng, Jia, Qiu, Zhongjie, Lin, Xuliang, Qin, Yanlin
Format: Article
Language:English
Subjects:
Adsorption - drug effects
Biocompatible Materials - chemical synthesis
Biocompatible Materials - chemistry
Biomass
Dye pollutant removal
Epichlorohydrin - chemistry
Lignin - chemical synthesis
Lignin - chemistry
Lignin hydrogel
Materials Testing
Methylene Blue - chemistry
Polyvinyl Alcohol - chemical synthesis
Polyvinyl Alcohol - chemistry
PVA
Seeds - drug effects
Seeds - growth & development
Soil Pollutants - chemistry
Water Pollution - prevention & control
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Summary:The traditional polyvinyl alcohol composite hydrogel exhibited poor swelling and mechanical properties, which limited its application. To solve these issues, we use biomass lignin as raw material, PVA as matrix template and epichlorohydrin as cross-linker to prepare the Lignin-PVA super-absorbent hydrogels with the swelling ratio of up to 456 g/g under mild condition. When the lignin concentration was increased from vacancy to 5%, the swelling ratio of the Lignin-PVA hydrogels was increased from 92 g/g to 456 g/g. The lignin-based hydrogel synthesized by the higher molecular weight PVA showed better swelling performance. Softwood lignin, hardwood lignin and corncob lignin could also be used to fabricate the Lignin-PVA super-absorbent hydrogels with the swelling ratio of higher than 500 g/g. However, the optimum amount varied from different lignin types, which was related to the molecular weight and phenolic hydroxyl content of lignin. The structural mechanism of the Lignin-PVA hydrogel was proposed to clearly certify the enhancing role of lignin. The adsorption capacity of the Lignin-PVA hydrogel with respect to rhodamine 6G, crystal violet and methylene blue dyes was up to 196, 169 and 179 mg/g, respectively. The Lignin-PVA hydrogel presents great potential applications in the fields of soil water retention and seed cultivation in agriculture, and dye pollutant removal. •Lignin-PVA super-absorbent hydrogels exhibited the swelling ratio of up to 456 g/g.•Softwood, hardwood and corncob lignin-based PVA hydrogel was investigated.•Lignin-PVA hydrogels presented excellent water retention and biodegradability.•Lignin-PVA hydrogels could take up large amounts of positively charged dyes.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2019.08.142