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Design and Development of Nanostructured Thin Films



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Autore: Cavaliere Sara Visualizza persona
Titolo: Design and Development of Nanostructured Thin Films Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica: 1 electronic resource (386 p.)
Soggetto non controllato: polyhydroxibutyrate
graphene oxide
nanostructured films
iridescence
carbon nanotube
corrosion
biomaterial
powders
adsorption energy
UPD
plasma irradiation
metallic nanoparticles
STM
nanospiral
PA-PVD
light trapping
ruthenium
aqueous dispersion
DFT
monomer synthesis
ultrathin films
galvanic displacement
quantum confinement
rod coating
nanocomposite conductive polymers
nanocrystalline cellulose
phase transition performance
La2O3 passivation layer
interfacial energy
lamination
lysozyme
nanofibrous membranes
H2TPP
poly(dimethylacrylamide)
iron oxides
water filtration
hybrid deposition system
Pt thin deposits
reinforced
wires
self-assembly
composite gel
electron–phonon coupling
barrier material
PAS device
hydrogel
nanoscratch
thin film
polymeric matrix
SEM
silver
sputtering
optical transmittance
wound dressing
agarose
XPEEM
CERAMIS®
highly oriented pyrolytic graphite
FeO
Raman scattering
model system
XPS
photocatalysis
photovoltaics
atomic layer deposition
chirality
structural characterization
polystyrene
nanofiber
2D growth
nanostructure
biomedical
VOCs selectivity
silicon thin film
electrodeposition
electrocatalysis
SLRR
chemosensor
CaxCoO2
spin coating
nanocomposites
Al2O3
metal-organic framework
nanocoating of SiOx
platinum
symmetry
PECVD
thermal analysis
first-principles calculation
electrical properties
biomimetic solvent sensors
modulation structure
nanofibers
mercury vapors adsorbing layer
hydrogenated amorphous carbon films
phase transformation
birefringence
nanostructured back reflectors
mesoporous
silk sericin
polymer nanoparticles
LEEM
SorpTest
InAlN
metamaterial
microparticle deposition
CdTe
homogeneity
luminous transmittance
LDH
hybrid material
scaffolds
MgO
polystyrene sphere assisted lithography
Ge surface engineering
epitaxial growth
AuNPs
Kr physisorption
plasma deposition
ReB2/TaN multilayers
vanadium dioxide
FIB
mask
self-catalysed
mesoporous graphene
coating
post-treatment
Mg alloy
photonic nanostructures
ink
deposition
Mueller matrix
electrospinning deposition
polar semiconductors
zinc oxide
thin films
Fe3O4
TiO2NPs
mechanical flexibility
hazardous organic solvents
permeation
interfacial model
microscopy
LEED
electrical conductivity
PVD
Persona (resp. second.): MacagnanoAntonella
De CesareFabrizio
Sommario/riassunto: Due 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)
Titolo autorizzato: Design and Development of Nanostructured Thin Films  Visualizza cluster
ISBN: 3-03928-739-7
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910404083003321
Lo trovi qui: Univ. Federico II
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