Litcius/Paper detail

Impact of lignin structuration on its chemical and adhesive properties at the nanoscale: involvement with native and polymer matrices

Carlos Marcuello, Nicolas Bercu, Laurence Foulon, Brigitte Chabbert, Michaël Molinari, Véronique Aguié‐Béghin

2025Nanoscale6 citationsDOI

Abstract

the LB approach increased the adhesion force measurement resolution and provided new insights into the molecular affinity of lignin for other materials at the nanoscale, which prefers xylan polymers, such as those in native plant cell walls, and apolar/polar polymer matrices, such as those in composite materials, albeit to a lesser extent.

Topics & Concepts

LigninBiorefineryPolymerAdhesiveMaterials scienceXylanChemical engineeringChemical structureChemical modificationComposite numberPapermakingOrganic chemistryForce spectroscopyChemistryDehydrogenationChemical force microscopyNanotechnologyBiocompositeMatrix (chemical analysis)AdhesionChemical resistancePolymerizationSpectroscopyComposite materialCharacterization (materials science)Surface modificationLignin and Wood Chemistry
Impact of lignin structuration on its chemical and adhesive properties at the nanoscale: involvement with native and polymer matrices | Litcius