Interfacial Mechanisms of Water Vapor Sorption into Cellulose Nanofibril Films as Revealed by Quantitative Models

Keyphrases

• Humidity 100%
• Cellulose Nanofibril Films 100%
• Quantitative Model 100%
• Interfacial Mechanism 100%
• Water Vapor Sorption 100%
• Oxyl 40%
• Oxidized Cellulose Nanofibrils 40%
• Water Molecule 40%
• Biomaterials 20%
• Water Sorption 20%
• Quartz Crystal Microbalance with Dissipation (QCM-D) 20%
• Water Vapour Uptake 20%
• Surface Sensitivity 20%
• Water Uptake 20%
• Enabling Change 20%
• Langmuir 20%
• Mode-dependent 20%
• Flory-Huggins 20%
• Sorption 20%
• Two-dimensional Surface 20%
• Sorption Mechanism 20%
• Clustering Model 20%
• Brunauer-Emmett-Teller Model 20%
• Isotherm 20%
• Change in Mass 20%
• Local Architecture 20%
• Change in Thickness 20%
• Gas-solid Interface 20%
• Spectroscopic Ellipsometry 20%
• Specific Sorption 20%

INIS

• cellulose 100%
• water vapor 100%
• films 100%
• humidity 100%
• sorption 100%
• water 60%
• surfaces 40%
• molecules 40%
• uptake 40%
• layers 20%
• thickness 20%
• architecture 20%
• interfaces 20%
• experimental data 20%
• monitoring 20%
• range 20%
• thin films 20%
• gases 20%
• solids 20%
• crystals 20%
• quartz 20%
• ellipsometry 20%
• biological materials 20%
• microbalances 20%
• isotherms 20%
• cluster model 20%

Material Science

• Water Vapor 100%
• Surface (Surface Science) 66%
• Brunauer-Emmett-Teller Model 33%
• Biomaterial 33%
• Solid Interface 33%
• Film 33%
• Thin Films 33%