Design and Development of Nanostructured Thin Films
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...
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Year of Publication: | 2020 |
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Physical Description: | 1 electronic resource (386 p.) |
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Cavaliere, Sara auth Design and Development of Nanostructured Thin Films MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (386 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier 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) English 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 3-03928-738-9 Macagnano, Antonella auth De Cesare, Fabrizio auth |
language |
English |
format |
eBook |
author |
Cavaliere, Sara |
spellingShingle |
Cavaliere, Sara Design and Development of Nanostructured Thin Films |
author_facet |
Cavaliere, Sara Macagnano, Antonella De Cesare, Fabrizio |
author_variant |
s c sc |
author2 |
Macagnano, Antonella De Cesare, Fabrizio |
author2_variant |
a m am c f d cf cfd |
author_sort |
Cavaliere, Sara |
title |
Design and Development of Nanostructured Thin Films |
title_full |
Design and Development of Nanostructured Thin Films |
title_fullStr |
Design and Development of Nanostructured Thin Films |
title_full_unstemmed |
Design and Development of Nanostructured Thin Films |
title_auth |
Design and Development of Nanostructured Thin Films |
title_new |
Design and Development of Nanostructured Thin Films |
title_sort |
design and development of nanostructured thin films |
publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
publishDate |
2020 |
physical |
1 electronic resource (386 p.) |
isbn |
3-03928-739-7 3-03928-738-9 |
illustrated |
Not Illustrated |
work_keys_str_mv |
AT cavalieresara designanddevelopmentofnanostructuredthinfilms AT macagnanoantonella designanddevelopmentofnanostructuredthinfilms AT decesarefabrizio designanddevelopmentofnanostructuredthinfilms |
status_str |
n |
ids_txt_mv |
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carrierType_str_mv |
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is_hierarchy_title |
Design and Development of Nanostructured Thin Films |
author2_original_writing_str_mv |
noLinkedField noLinkedField |
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