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This book aims to present the different aspects of electrospinning for designing and fabricating high performing materials for sensors applied in gaseous and liquid environments. Since electrospinning is a versatile and inexpensive manufacturing technology, the book emphasizes the industrial applications perspective. The volume is an edited collection of the most recent and encouraging results concerning advanced nanostructured (bio)sensors. The feats achieved by these sensors range from high sensitivity to extreme operating conditions and satisfy a wide range of requirements. Most of the contributions in this book come from First International Workshop on Electrospinning for High Performance Sensing (EHPS2014) that was held in Rome in 2014, as part of the European COST Action MP1206 Electrospun Nano-fibres for bio inspired composite materials and innovative industrial applications.
Materials Science. --- Nanotechnology. --- Nanoscale Science and Technology. --- Nanotechnology and Microengineering. --- Analytical Chemistry. --- Electronic Circuits and Devices. --- Analytical biochemistry. --- Engineering. --- Biochimie analytique --- Ingénierie --- Nanotechnologie --- Materials. --- Engineering & Applied Sciences --- Chemical & Materials Engineering --- Technology - General --- Materials Science --- Electrospinning. --- High performance processors. --- Processors, High performance --- Materials science. --- Analytical chemistry. --- Nanoscale science. --- Nanoscience. --- Nanostructures. --- Electronic circuits. --- High performance computing --- Microprocessors --- Spinning --- Analytic biochemistry --- Biochemistry --- Chemistry, Analytic --- Construction --- Industrial arts --- Technology --- Molecular technology --- Nanoscale technology --- High technology --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Electronics --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Chemistry --- Nanoscience --- Physics --- Nano science --- Nanoscale science --- Nanosciences --- Science
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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)
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
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This book aims to present the different aspects of electrospinning for designing and fabricating high performing materials for sensors applied in gaseous and liquid environments. Since electrospinning is a versatile and inexpensive manufacturing technology, the book emphasizes the industrial applications perspective. The volume is an edited collection of the most recent and encouraging results concerning advanced nanostructured (bio)sensors. The feats achieved by these sensors range from high sensitivity to extreme operating conditions and satisfy a wide range of requirements. Most of the contributions in this book come from First International Workshop on Electrospinning for High Performance Sensing (EHPS2014) that was held in Rome in 2014, as part of the European COST Action MP1206 Electrospun Nano-fibres for bio inspired composite materials and innovative industrial applications.
Solid state physics --- Chemical structure --- Analytical chemistry --- Electronics --- Electrical engineering --- Biotechnology --- nanotechniek --- analytische chemie --- biotechnologie --- elektrische circuits
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