Cellulose (Nano)Composites

Cellulose (Nano)Composites

Our environment has been severely affected by the intensive production and use of plastics derived from fossil fuels and their uncontrolled end-of-life disposal. The return to using natural products is a characteristic of the most recent decades, and nanocellulose occupies a privileged position amon...

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Bibliographic Details
Other Authors: Panaitescu, Denis (Editor), Frone, Adriana Nicoleta (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Technology: general issues
Chemical engineering
films
nanocellulose
nanocrystals
biodegradable packaging
rice straw
cellulose nanofibers
unbleached pulp
polysulfone
membrane
Walnut shell
TEMPO oxidation
sulfuric acid hydrolysis
ultrasonication
cellulose acetate butyrate
plasticizer
molecular dynamics simulation
thermal analysis
compatibility
cellulose
plasma in liquids
polyhydroxyalkanoate
polymer composites
thermal properties
DMA
glycerin
dissolution
green solvent
aqueous solution
poly(3-hydroxyoctanoate)
polyhydroxybutyrate
bio-based modifiers
toughening
biocompatibility
hydrogels
cellulose nanocrystals
UCST polymer
hydrogen bond
drug release
drug delivery
functionalization
natural polyester
nanocomposites
microfibrillated cellulose
polymethacrylic acid
grafting
poly(3-hydroxybutyrate)
biocomposites
polyhydroxyalkanoates
n/a
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Summary:Our environment has been severely affected by the intensive production and use of plastics derived from fossil fuels and their uncontrolled end-of-life disposal. The return to using natural products is a characteristic of the most recent decades, and nanocellulose occupies a privileged position among these intensively studied products. Nanocellulose is obtained from cellulose, which is the most abundant natural polymer, by applying different chemical, mechanical, enzymatic and, most often, combined methods. A huge effort has been invested in the application of nanocellulose as a modifier or reinforcing agent in polymer nanocomposites. This Special Issue brings together twelve original articles and studies that contribute to our understanding of the fundamental and technological knowledge of cellulose-polymer nanocomposites. The isolation of nanocellulose from cheap sources and, especially, from agro-food industry waste is an important step to be implemented for cost reduction and environmental protection. An appropriate surface treatment of nanocellulose is a key element for achieving a good interfacial adhesion and superior properties in polymer nanocomposites. The use of more appropriate and green solvent systems for cellulose, the use of biobased plasticizers and toughening agents in nanocellulose nanocomposites, and the use of molecular dynamics simulations for the prediction of the compatibility of cellulose blends are valuable methods for expanding the application of nanocellulose.
Physical Description:1 electronic resource (248 p.)
ISBN:books978-3-0365-7948-1
9783036579498
9783036579481
Access:Open Access

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