LEADER 06961nam  2202065z- 450 
001 9910404083003321
005 20231214133103.0
010   $a3-03928-739-7
035   $a(CKB)4100000011302308
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/44811
035   $a(EXLCZ)994100000011302308
100   $a20202102d2020      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aDesign and Development of Nanostructured Thin Films
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 electronic resource (386 p.)
311   $a3-03928-738-9 
330   $aDue to their unique size-dependent physicochemical properties, nanostructured thin films are used in a wide range of applications from smart coating and drug delivery to electrocatalysis and highly-sensitive sensors. Depending on the targeted application and the deposition technique, these materials have been designed and developed by tuning their atomic-molecular 2D- and/or 3D-aggregation, thickness, crystallinity, and porosity, having effects on their optical, mechanical, catalytic, and conductive properties. Several open questions remain about the impact of nanomaterial production and use on environment and health. Many efforts are currently being made not only to prevent nanotechnologies and nanomaterials from contributing to environmental pollution but also to design nanomaterials to support, control, and protect the environment. This Special Issue aims to cover the recent advances in designing nanostructured films focusing on environmental issues related to their fabrication processes (e.g., low power and low cost technologies, the use of environmentally friendly solvents), their precursors (e.g., waste-recycled, bio-based, biodegradable, and natural materials), their applications (e.g., controlled release of chemicals, mimicking of natural processes, and clean energy conversion and storage), and their use in monitoring environment pollution (e.g., sensors optically- or electrically-sensitive to pollutants)
610   $apolyhydroxibutyrate
610   $agraphene oxide
610   $ananostructured films
610   $airidescence
610   $acarbon nanotube
610   $acorrosion
610   $abiomaterial
610   $apowders
610   $aadsorption energy
610   $aUPD
610   $aplasma irradiation
610   $ametallic nanoparticles
610   $aSTM
610   $ananospiral
610   $aPA-PVD
610   $alight trapping
610   $aruthenium
610   $aaqueous dispersion
610   $aDFT
610   $amonomer synthesis
610   $aultrathin films
610   $agalvanic displacement
610   $aquantum confinement
610   $arod coating
610   $ananocomposite conductive polymers
610   $ananocrystalline cellulose
610   $aphase transition performance
610   $aLa2O3 passivation layer
610   $ainterfacial energy
610   $alamination
610   $alysozyme
610   $ananofibrous membranes
610   $aH2TPP
610   $apoly(dimethylacrylamide)
610   $airon oxides
610   $awater filtration
610   $ahybrid deposition system
610   $aPt thin deposits
610   $areinforced
610   $awires
610   $aself-assembly
610   $acomposite gel
610   $aelectron?phonon coupling
610   $abarrier material
610   $aPAS device
610   $ahydrogel
610   $ananoscratch
610   $athin film
610   $apolymeric matrix
610   $aSEM
610   $asilver
610   $asputtering
610   $aoptical transmittance
610   $awound dressing
610   $aagarose
610   $aXPEEM
610   $aCERAMIS®
610   $ahighly oriented pyrolytic graphite
610   $aFeO
610   $aRaman scattering
610   $amodel system
610   $aXPS
610   $aphotocatalysis
610   $aphotovoltaics
610   $aatomic layer deposition
610   $achirality
610   $astructural characterization
610   $apolystyrene
610   $ananofiber
610   $a2D growth
610   $ananostructure
610   $abiomedical
610   $aVOCs selectivity
610   $asilicon thin film
610   $aelectrodeposition
610   $aelectrocatalysis
610   $aSLRR
610   $achemosensor
610   $aCaxCoO2
610   $aspin coating
610   $ananocomposites
610   $aAl2O3
610   $ametal-organic framework
610   $ananocoating of SiOx
610   $aplatinum
610   $asymmetry
610   $aPECVD
610   $athermal analysis
610   $afirst-principles calculation
610   $aelectrical properties
610   $abiomimetic solvent sensors
610   $amodulation structure
610   $ananofibers
610   $amercury vapors adsorbing layer
610   $ahydrogenated amorphous carbon films
610   $aphase transformation
610   $abirefringence
610   $ananostructured back reflectors
610   $amesoporous
610   $asilk sericin
610   $apolymer nanoparticles
610   $aLEEM
610   $aSorpTest
610   $aInAlN
610   $ametamaterial
610   $amicroparticle deposition
610   $aCdTe
610   $ahomogeneity
610   $aluminous transmittance
610   $aLDH
610   $ahybrid material
610   $ascaffolds
610   $aMgO
610   $apolystyrene sphere assisted lithography
610   $aGe surface engineering
610   $aepitaxial growth
610   $aAuNPs
610   $aKr physisorption
610   $aplasma deposition
610   $aReB2/TaN multilayers
610   $avanadium dioxide
610   $aFIB
610   $amask
610   $aself-catalysed
610   $amesoporous graphene
610   $acoating
610   $apost-treatment
610   $aMg alloy
610   $aphotonic nanostructures
610   $aink
610   $adeposition
610   $aMueller matrix
610   $aelectrospinning deposition
610   $apolar semiconductors
610   $azinc oxide
610   $athin films
610   $aFe3O4
610   $aTiO2NPs
610   $amechanical flexibility
610   $ahazardous organic solvents
610   $apermeation
610   $ainterfacial model
610   $amicroscopy
610   $aLEED
610   $aelectrical conductivity
610   $aPVD
700   $aCavaliere$b Sara$4auth$01328956
702   $aMacagnano$b Antonella$4auth
702   $aDe Cesare$b Fabrizio$4auth
906   $aBOOK
912   $a9910404083003321
996   $aDesign and Development of Nanostructured Thin Films$93039223
997   $aUNINA