Schnabel, Thomas||Tondi, Gianluca <br/><br/>
Bio-Based Polymers for Engineered Green Materials 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>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||n/a||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