Publication | Closed Access
Lignin-enhanced wet strength of cellulose-based materials: a sustainable approach
47
Citations
94
References
2023
Year
BioplasticsEngineeringBioplasticRenewable ResourcesBio-based MaterialNatural PolymersPetroleum-based Plastic ProductsLignin ChemistryCellulose-based MaterialsSustainable PolymersChemical EngineeringNanocellulosePolymer ChemistryWood ComponentRenewable PolymersViable ReplacementsLignin-enhanced Wet StrengthSustainable PolymerPolymer ScienceWood Fibre
Cellulose is the most abundant renewable polymer resource in nature and cellulose-based materials are expected to serve as viable replacements to petroleum-based plastic products.
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