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Bio-Based Polymers for Engineered Green Materials



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Autore: Schnabel Thomas Visualizza persona
Titolo: Bio-Based Polymers for Engineered Green Materials Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica: 1 electronic resource (568 p.)
Soggetto non controllato: chitosan
graphene oxide
microstructure
autoxidation
heavy metals
polycaprolactone
precipitation
thermosetting polymers
thermal degradation
humidity sensor
asphalt rubber
tung oil
nanobiocomposites
ionic liquid
GC-MS
hybrid nonisocyanate polyurethane
physicochemical properties
alginate sponge
Bioflex
dimer acid
bio-asphalt
benzoyl cellulose
Peptone
transparent wood
biocomposite
nanoclays
storage stability
solvent- and catalyst-free
microcellulose fiber
lignin-containing cellulose nanofibrils
polylactic acid (PLA)
bio-inspired interfaces
polyhydroxyalkanoates
strain sensor
enzymatic saccharification
headspace solid phase microextraction
PHBV
electrical resistance
melt condensation
cement
solution casting
orange waste
hybrid composites
biopolymers
TEMPO oxidation
pollutant adsorbents
Escherichia coli
bio-nanocomposites
TiO2 anatase
metal binding
liquid natural rubber
hydrotropic treatment
metal chloride
feast-famine
biomass resources
wood
electroless deposition
one-pot synthesis
thermoplastic starch
films
lignin-carbohydrate complex
cellulose
corn starch
microencapsulated phase change material (MPCM)
differential scanning calorimetry
compatibility
natural fibers
workability
silkworm cocoons
lignin content
polylactic acid
porous structure
electrospinning
nanocellulose fibers
H2O2 bleaching treatment
polysaccharides
mixing sequence
porosity
lignocellulosic nanofibrils
dense structure
alkali lignin
polydopamine coating
nuclear magnetic resonance
cationic dyes
poly(lactic acid) and composite films
endothermic effect
HSQC-NMR
Microbial nutrient
toughening
X-ray diffraction
water resistance
waste biomass
lignin
UV light
ultrafiltration
two-step lyophilization
mechanical degradation
bio-based
methylene blue
stearoyl cellulose
ONP fibers
anionic surfactants
Hatscheck process
osteoblast proliferation
resource recovery
dissolution
copper coating
bacterial cellulose
hydrogel
iron chelation
knotwood
sensitivity
mixed microbial cultures
dimensional stability
volatiles
lignocellulose
Artemisia vulgaris
surface modification
PHA
crosslinked microparticles
pyrene
composites
galactoglucomannan
polymeric composites
kaempferol
tannin-furanic foam
Solanyl
wastewater treatments
adsorption capacity
heat treatment
thermal gravimetric analysis
WAXS
unsaturated polyester resins
pulp fibers
free-radical polymerization
larixol
delignification
antifouling
chemical composition
hemicellulose
tissue engineering
extrusion-compounding
membrane
photodegradation
structural plastics
scanning electron microscope
phenanthrene
thermal properties
immobilized TEMPO
Staphylococcus aureus
adsorption
wood modification
structure-property relationship
physical property
film
mechanical properties
tannin
Bio-based foams
latex state
paper-based scaffolds
skincare
pyrolysis mechanism
emulsion-solvent evaporation method
bioplastics
imidazolium
fractionation
cost
fiber-cement
lyocell fiber
recycling
kenaf fiber
thermal stability
transport properties
SAXS
silanization
cellulose nanofibers
taxifolin
tannin polymer
vibrational spectroscopy
robust fiber network
nanocelluloses
poly(lactic acid)
Anti-bacterial silver nanoparticle
cellulose nanocrystals
Persona (resp. second.): TondiGianluca
Sommario/riassunto: With daily signals, Nature is communicating us that its unconscious wicked exploitation is no more sustainable. Our socio-economic system focuses on production increasing without considering the consequences. We are intoxicating ourselves on a daily bases just to allow the system to perpetuate itself. The time to switch into more natural solutions is come and the scientific community is ready to offer more natural product with comparable performance then the market products we are used to deal with. This book collects a broad set of scientific examples in which research groups from all over the world, aim to replace fossil fuel-based solutions with biomass derived materials. In here, some of the most innovative developments in the field of bio-materials are reported considering topics which goes from biomass valorization to the synthesis of high preforming bio-based materials.
Titolo autorizzato: Bio-Based Polymers for Engineered Green Materials  Visualizza cluster
ISBN: 3-03928-926-8
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910404081003321
Lo trovi qui: Univ. Federico II
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