Structure and rheology of stimuli-responsive nanocellulose interfacial layers
Metadata only
Author
Date
2023-09Type
- Other Conference Item
ETH Bibliography
yes
Altmetrics
Abstract
The use of particles such as nanocelluloses, i.e. cellulose nanocrystals (CNC) and nanofibrils (CNF) received increasing attention for the Pickering stabilization of fluid interfaces. The adsorption of nanocellulose and nanocellulose-protein composites at oil-water or air-water interfaces facilitates the formation of stable and biocompatible emulsions and foams but depends heavily on the particles’ surface properties. In this contribution, we review the structure of differently designed adsorption layers by neutron reflectivity and interfacial rheology measurements as a function of physico-chemical boundaries conditions (pH, salts, enzymes), surface properties of the cellulose crystals (natural, methylation, esterification), and protein or polysaccharide addition. Native unmodified CNC (hydrophilic, negatively charged, and anisotropic nanoparticles) showed negligible viscoelasticity that could be increased by charge screening due to a shift from repulsive to attractive CNC interactions. Methylated CNCs formed dense monolayers with higher dynamic moduli compared to native CNCs and could be thermo-gelled into multilayers. The esterified CNCs formed aggregated clusters at the interface, resulting in a Maxwellian frequency behavior with distinctive relaxation times, a rarely observed phenomenon for interfacial layers. Scattering length density profiles obtained from neutron reflectivity measurements are used to elucidate the thickness and roughness of the adsorption layer, and in case of nanocellulose-protein composites, their spatial composition. Supported by in vivo digestion experiments in humans we rationalize the design principles of nanocellulose-stabilized emulsions and foams for food and drug delivery vehicles. Show more
Publication status
publishedBook title
Book of Abstracts EPNOE 2023Pages / Article No.
Publisher
TU Graz, Institute of Chemistry and Technology of Biobased SystemsEvent
Organisational unit
08821 - Fischer, Peter (Tit.-Prof.)
Notes
Conference lecture held on September 22, 2023.More
Show all metadata
ETH Bibliography
yes
Altmetrics