Nanocellulose
Cellulose Nanofibrils (CNF): web like structure; Spaghetti
Cellulose Nanocrystals (CNC): individual crystals/rods
Bacterial cellulose: Cellulse of high purity
Sources of cellulose
Wood fibers
Vegetables
Plants
Isolation Process CNF
Masuko Grinder
Homogenizer: shear forces for shreddig fibers
Pre-treatments: Acid, Enzymes, TEMPO
Isolation Process CNC
HCI + H2SO4 —> Heating —> Centrifugation —> Dialysis —> Sonication
Percolation Threshold
0.7/(L/d)
Higher L/D —> lower nanocrystals content
Higher L/D the higher Youngs moudlus and tensile strength
Advantages and Disadvantages of Nanocellulose
Advantages: leightweightm builds networks, high strenth, stiffness, water storage, high surface area, high reactivity, barrier properties
Strong hydrophilic character is problematic —> lack of compatability with hydrophobic polymer matrices
Restricted application field
Chemical Modification of Nanocellulose
Esterfication
Oxidation
Estherficaation, alcohol + alcohol
Silyation with alkoxysilanes to tailor polarity of NFC
NFC Nanopaper
Evaporation: Liquid —> Gas
Prepared by vacuum filtration and water evaporation
2D network of Cellulose nanofibers
1. Dilution of NFC suspension —> 2. Vacuum filtration —> 3. Drying
Properties: transparent, smooth, barrier against oxygen, density
Applications: Packaging, displays, coatings, adhesives
NFC Foams
Freeze drying: Ice crystals sublimate directy into gaseous state
Cellular structure with nanopaper cell wall
Pores: reflect ice crystal formation during freezing step
Low specific surface are, mechanical properties tunable by density, ductile, rough
Applications: packaging, insulation, biomedicine
NFC Aerogel
Supercritical drying: über kritischer temperatur und druck
Separation of liquids from solids without affecting structure
Aerogek; liquid omponent replaced by air without affection structure
Applications: filtration, gas separation, insulation
3D printing Inks
Elastic component > Viscous component
Zuletzt geändertvor einem Jahr