01193nam0-2200373li-450 99000024637020331620180312154835.00-19-851984-20024637USA010024637(ALEPH)000024637USA0100246372001998021988-------y0itay0103----baengGBClassical equilibrium statistical mechanicsColin J. ThompsonOxfordClarendon presscopyr. 1988IX, 213 p.ill.23 cmmateriaproprieta'meccanica statistica530132Fisica statistica classica (Statist. di Boltzmann)Thompson,Colin J.49391Sistema bibliotecario di Ateneo dell' Università di SalernoRICA990000246370203316530.132 THO0021230/cbs530.13200325279BKSCI1998021320001110USA01171520020403USA011633PATRY9020040406USA011618RSIAV79020090728USA011122Classical Equilibrium Statistical Mechanics338942UNISA02636nam 22004933a 450 991034667720332120250203235435.09783038974529303897452810.3390/books978-3-03897-452-9(CKB)4920000000094895(oapen)https://directory.doabooks.org/handle/20.500.12854/56642(ScCtBLL)35b5a4d1-aadf-490e-bbec-4dabe4f5d5d2(OCoLC)1163806443(oapen)doab56642(EXLCZ)99492000000009489520250203i20182019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierPolymers from Renewable ResourcesGeorge Z. PapageorgiouMDPI - Multidisciplinary Digital Publishing Institute2019Basel, Switzerland :MDPI,2018.1 electronic resource (568 p.)9783038974512 303897451X The use of polymeric materials from renewable resources dates back in history. Even though synthetic polymers dominated the market for years, there is now a need for the development of sustainable, safe, and environmentally benign plastics from renewable resources. Green polymers from renewable resources can be isolated from biomass, obtained through the chemical modification of natural polymers, or synthesized through a two-step process from biomass involving monomer synthesis and then polymerization. Finally, polymer synthesis can be achieved in plants through photosynthesis using carbon dioxide or in microorganisms (e.g. synthesis of poly(hydroxy-alkanoate)s). In this issue, the developments in sustainable polymers including PLA, PHB, and furan-based materials are presented together with those concerning bionanocomposites of lignocellulosic mater or starch, and blends of bioplastics. The use of biomass-based plasticizers, fillers, and additives for the improvement of polymers' properties and the applications of biopolymers such as hyaluronic acid, carrageenans, chitosan, and polysaccharides in medicine and pharmaceutics are discussed.ChemistrybicsscRenewable monomersSustainable materialsBiobased polymersBioplasticsBiodegradable polymersRenewable resourcesChemistryPapageorgiou George Z64926ScCtBLLScCtBLLBOOK9910346677203321Polymers from Renewable Resources4317652UNINA