Bio-Based Polymers for Engineered Green Materials
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 itsel...
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| Year of Publication: | 2020 |
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Schnabel, Thomas auth Bio-Based Polymers for Engineered Green Materials MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (568 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Open access Unrestricted online access star 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. English 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 3-03928-925-X Tondi, Gianluca auth |
| language |
English |
| format |
eBook |
| author |
Schnabel, Thomas |
| spellingShingle |
Schnabel, Thomas Bio-Based Polymers for Engineered Green Materials |
| author_facet |
Schnabel, Thomas Tondi, Gianluca |
| author_variant |
t s ts |
| author2 |
Tondi, Gianluca |
| author2_variant |
g t gt |
| author_sort |
Schnabel, Thomas |
| title |
Bio-Based Polymers for Engineered Green Materials |
| title_full |
Bio-Based Polymers for Engineered Green Materials |
| title_fullStr |
Bio-Based Polymers for Engineered Green Materials |
| title_full_unstemmed |
Bio-Based Polymers for Engineered Green Materials |
| title_auth |
Bio-Based Polymers for Engineered Green Materials |
| title_new |
Bio-Based Polymers for Engineered Green Materials |
| title_sort |
bio-based polymers for engineered green materials |
| publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
| publishDate |
2020 |
| physical |
1 electronic resource (568 p.) |
| isbn |
3-03928-926-8 3-03928-925-X |
| illustrated |
Not Illustrated |
| work_keys_str_mv |
AT schnabelthomas biobasedpolymersforengineeredgreenmaterials AT tondigianluca biobasedpolymersforengineeredgreenmaterials |
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n |
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cr |
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Bio-Based Polymers for Engineered Green Materials |
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noLinkedField |
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