06266nam 2201897z- 450 991057687290332120220621(CKB)5720000000008447(oapen)https://directory.doabooks.org/handle/20.500.12854/84550(oapen)doab84550(EXLCZ)99572000000000844720202206d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBiopolymers from Natural ResourcesBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (422 p.)3-0365-3967-0 3-0365-3968-9 This work covers all aspects related to the obtainment, production, design, and processing of biopolymers obtained from natural resources. Moreover, it studies characteristics related to the improvement of their performance to increase their potential application at an industrial level, in line with the concept of a global circular economy. Thus, this work firstly classifies biopolymers obtained from natural resources (e.g., biobased building blocks and biopolymers extracted directly from plants and biomass), and then summarizes several cutting-edge research works focused on enhancing the performance of biopolymers from natural resources to extend their application in the industrial sector, and contribute to the transition to more sustainable plastics.History of engineering & technologybicsscTechnology: general issuesbicssc3D printingactive packagingagricultural wasteair permeabilityallotropic transitionalmond shell flourantioxidant activityargan shell particlesasparagusbacterial cellulosebacterial polyestersbilayer packagingbinary blendsbio-sorptionbioaccessibilitybiobased blendsbiocompositebionanocompositesbioplasticsbiopolymerbiopolymersbiorefinerybran contentcarbonated epoxidized linseed oilcarbonation reactioncarboxymethyl cellulosecellulose acetatecellulose extractioncellulosic nonwoven textilecharacterizationchitinchitosancholine chlorideCircular Bioeconomycitric acidCMCcoatingcoircomfortcompatibilizationcone calorimetercottonseed oilCucumis metuliferuscuticlescutindegree of substitutiondolomiteDSempty fruit bunchextractionfatty acid of cottonseed oilfilmsflame retardantfoamfunctional propertiesfunctional textilesfungal fibershalloysite nanotubes (HNTs)hemp fibershydroxypropyl methylcelluloseimproved toughnessin vitro digestionionic liquidionic transportisothermsk-carrageenanLDPEligninmechanical and thermal characterizationmechanical propertiesmechanical recyclingmethyl methacrylatemicrostructuremicrowavemigrationmucilagemycoceln/ananocompositesnanoparticlesnata de coconatural fibersnon-isocyanate polyurethaneorganosolv pretreatmentorodispersible filmorthogonal experimentsPA610PHBHphenytoinPLAplasticized wheat flourplasticizerpoly(3-hydroxybutyrate-co-3hydroxyhexanoate)-PHBHpoly(lactic acid)poly(ε-caprolactone)-PCLpolyelectrolyte multi-layerspolyethylenepolysulfide-derived polymerspotato starchregenerated celluloseselectivity optimizationsodium alginatesodium hydroxidesodium soap of cottonseed oilsoftgelssoftwood fiberssolanum: CPMAS 13C NMRsolid polymer electrolytesonicationsoy proteinstarch dissolutionsurface functionalizationsyringe extrusion 3D printingthermal characterizationthermoplastic starchthymolvirus membrane filtrationwood plastic compositeWPCsyerba mateHistory of engineering & technologyTechnology: general issuesBalart Gimeno Rafael Antonioedt1296669Arrieta Dillon Marina PatriciaedtGarcía García DanieledtQuiles Carrillo Luís JesúsedtBorrás Vicent FombuenaedtBalart Gimeno Rafael AntonioothArrieta Dillon Marina PatriciaothGarcía García DanielothQuiles Carrillo Luís JesúsothBorrás Vicent FombuenaothBOOK9910576872903321Biopolymers from Natural Resources3024201UNINA