Polymeric wood hemicelluloses are depicted to join cellulose, starch and chitosan as key polysaccharides for sustainable materials engineering. However, the approaches to incorporate hemicelluloses in emerging bio-based products are challenged by lack of specific benefit, other than the biomass-origin, although their utilization would contribute to sustainable material use since they currently are a side stream that is not valorized. Here we demonstrate wood-xylans as swelling modifiers for neutral and charged nanocellulose films that have already entered the sustainable packaging applications, however, suffer from humidity sensitivity. The oxidative modification is used to modulate the water-solubility of xylan and hence enable adsorption ...
A biomimetic, facile approach to cellulose modification is the utilisation of self-adsorbing, natura...
Cellulose is the main structural component of all plant fibers. Recent technology has enabled the to...
In this work, we report for the first time the clean manufacturing of cellulose nanopapers by a gree...
Wood xylans are renewable natural materials that have potential for future use in bio-based products...
Wood xylans are biopolymers that are valuable for future materials and renewable engineering solutio...
Xylan hemicelluloses are considered the second most abundant class of polysaccharides after cellulos...
Trees are a tremendous source of renewable materials comprising mainly cellulose, hemicellulose and ...
There is social, environmental and increasing economic pressure on the industrial sector to substitu...
Hemicelluloses are, together with cellulose and pectins, the polysaccharide constituents in the cell...
In this project, nanocomposite films and coatings, based on renewable resources, were prepared. A he...
Biopolymers from renewable resources are of interest for packaging applications as an alternative to...
The need for biobased polymers is increasing. The raw materials from agricultural and forest resourc...
To test the hypothesis that the introduction of a hydrophilic hemicellulose would affect viscoelasti...
In this paper, the significance of xylan on the behaviour of kraft birch pulp based nanofibrillated ...
Cellulose materials and products are frequently affected by environmental factors such as light, tem...
A biomimetic, facile approach to cellulose modification is the utilisation of self-adsorbing, natura...
Cellulose is the main structural component of all plant fibers. Recent technology has enabled the to...
In this work, we report for the first time the clean manufacturing of cellulose nanopapers by a gree...
Wood xylans are renewable natural materials that have potential for future use in bio-based products...
Wood xylans are biopolymers that are valuable for future materials and renewable engineering solutio...
Xylan hemicelluloses are considered the second most abundant class of polysaccharides after cellulos...
Trees are a tremendous source of renewable materials comprising mainly cellulose, hemicellulose and ...
There is social, environmental and increasing economic pressure on the industrial sector to substitu...
Hemicelluloses are, together with cellulose and pectins, the polysaccharide constituents in the cell...
In this project, nanocomposite films and coatings, based on renewable resources, were prepared. A he...
Biopolymers from renewable resources are of interest for packaging applications as an alternative to...
The need for biobased polymers is increasing. The raw materials from agricultural and forest resourc...
To test the hypothesis that the introduction of a hydrophilic hemicellulose would affect viscoelasti...
In this paper, the significance of xylan on the behaviour of kraft birch pulp based nanofibrillated ...
Cellulose materials and products are frequently affected by environmental factors such as light, tem...
A biomimetic, facile approach to cellulose modification is the utilisation of self-adsorbing, natura...
Cellulose is the main structural component of all plant fibers. Recent technology has enabled the to...
In this work, we report for the first time the clean manufacturing of cellulose nanopapers by a gree...