Publication | Closed Access
Flexible cellulose nanopaper with high wet tensile strength, high toughness and tunable ultraviolet blocking ability fabricated from tobacco stalk <i>via</i> a sustainable method
168
Citations
58
References
2018
Year
Materials ScienceSustainable MethodEngineeringFlexible ElectronicsResidual LigninNanopaper LeadsMechanical EngineeringTunable UltravioletBiocompositeWood FibreWet StrengthLigninNanocelluloseHigh ToughnessWood Component
Retaining residual lignin in nanopaper leads to UV-blocking ability and significantly improves mechanical performance, especially the toughness and wet strength.
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