01363nam2-2200421---450-99000614890020331620160530122156.0000614890USA01000614890(ALEPH)000614890USA0100061489020160530d1959----km-y0itay50------baitaIt||||||||001yy<<2.>>: Storia del diritto romano. 2Pietro BonfanteRist. della 4. ed. riv. dall'Autorea cura di Giuliano Bonfante e di Giuliano Crifòcon prefazione di Emilio BettiMilanoGiuffrè1959XII, 342 p.25 cm0010002073792001Opere complete di Pietro BonfanteDiritto romanoStoriaBNCF340.54BONFANTE,Pietro108947BONFANTE,GiulianoCRIFO',GiulianoBETTI,EmilioITsalbcISBD990006148900203316XVI.5. 433/2XVI.5.00279255BKFMELGIUSY9020160530USA011215GIUSY9020160530USA011216GIUSY9020160530USA011219GIUSY9020160530USA011220GIUSY9020160530USA011221Storia del diritto romano. 21387149UNISA03916nam 2201045z- 450 991055729690332120210501(CKB)5400000000041070(oapen)https://directory.doabooks.org/handle/20.500.12854/69238(oapen)doab69238(EXLCZ)99540000000004107020202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierElectrospun NanomaterialsApplications in Food, Environmental Remediation, and BioengineeringBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (202 p.)3-03943-226-5 3-03943-227-3 The papers collected in this Special Issue entitled "Electrospun Nanomaterials: Applications in Food, Environmental Remediation, and Bioengineering" illustrate the high diversity and potential for implementation of electrospun nanofibers in these fields, including the covering of a wide number of subtopics. Examples of these applications have included bioactive scaffolds, wound healing dressings, compound protective nanoreservoirs and sustained and controlled release systems. An important driver of these applications results from advances in materials science and new nanofiber manufacturing processes. Definitely, such pieces of fundamental research will contribute to the promotion of electrospinning as a focal point in the future development of technological applications at the interface of biological systems, which promise long-term benefits for both health and the environment.Electrospun Nanomaterials Technology: general issuesbicsscaligned fiberantibacterial effectantibioticsbiodegradable polymerbiomaterialscadmium selenidecell adhesion and spreadingcell viabilitycellulose acetatecentellachitin nanofibrilschitosanCOOH plasmacurcumindrug releaseelectrospinningelectrospun fiberselectrospun nanofibersfood industryfood packagingfreeze-thawed platelet-rich plasma immobilizationfunctional membraneHDPAFhemorrhagehemostatic materialhinokitiolhoneymicro-nanofibersmicrobial fuel cellsn/ananoencapsulationnanofibernanofibersnanoparticlesneuronosteoblastPHBHphotoactive nanoparticlesphotoprotectionpiezoelectricityPLA/PEG/curcumin nanofiberPMVE/MApolycaprolactonepolyethylene oxide nanofibers PEO-NFspolymerspolyvinylidene fluoridepolyvinylidene fluoride-trifluoroethyleneporous nanofiberpropolisrecovered energy (Erec)scaffoldsolar thermalstem cellthermoprotectiontissue engineeringβ-caroteneTechnology: general issuesMallavia Ricardoedt1321489Falco AlbertoedtMallavia RicardoothFalco AlbertoothBOOK9910557296903321Electrospun Nanomaterials3034583UNINA