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This Special Issue deals with the fascinating material class of nanocomposites consisting of extremely small particles (nanoparticles) which are embedded in polymers. Such materials are of paramount interest in various disciplines, especially chemistry, physics, biomedicine and materials science. Due to the diversity of the components of nanocomposites, they provide a broad spectrum of material properties and applications. The versatility of nanocomposites is indeed reflected by the research covered in this Special Issue. The field of nanocomposites includes innovative science and a source of inspiration for currently relevant economic topics as well as for envisaged technologies of the future. Indeed, this volume alludes to strategies for the preparation of nanocomposites and possibilities for a variety of applications, such as catalytic reactions, gas barriers, high refractive index materials, corrosion protection, electromagnetic inference (EMI) shielding, lithium ion batteries, tissue engineering and plastic surgery.

broadband dielectric spectroscopy --- dielectric strength --- loss factor --- magnesium oxide --- nanocomposite --- relative permittivity --- surface functionalization --- voltage response --- lithium-ion battery --- ionic-liquid-based separator --- hot-pressing --- inorganic nanoparticle --- fractal cluster --- nanostructures --- polymer matrix composites (PMCs) --- mechanical properties --- thermal properties --- elastomeric foam --- plastic reconstruction --- hydroxyapatite/polyurethane --- nanosized dispersion --- viscoelasticity --- biocompatibility --- nanoreactor --- catalyst confinement --- Flash Nanoprecipitation --- diffusion --- poly(vinyl alcohol) --- nanofiller --- film --- catalytic durability --- nanoparticle --- supported catalyst --- radical reactions --- platinum (Pt) --- H2O2 decomposition --- contact lens cleaning --- polymer brushes --- nanoparticles --- SPION --- thin magnetic films --- ATRP --- hybrid polymer/inorganic composites --- titanium oxide --- hybrid material --- anatase --- organic-inorganic hybrid --- high refractive index material --- MXene --- oxidized carbon nanotube (CNTO) --- nanoparticle decoration --- functionalization --- electromagnetic interference (EMI) shielding --- anti-corrosion --- tin sulfide (SnS) --- molybdenum disulfide (MoS2) --- electrochemical test --- composite coating --- nanocomposites --- surface-functionalization --- secondary dispersion --- hot-stretching --- metal–polymer interface --- multilayer --- structure–function correlation --- indirect band gap --- GISAXS --- GIWAXS --- UV-Vis

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This Special Issue deals with the fascinating material class of nanocomposites consisting of extremely small particles (nanoparticles) which are embedded in polymers. Such materials are of paramount interest in various disciplines, especially chemistry, physics, biomedicine and materials science. Due to the diversity of the components of nanocomposites, they provide a broad spectrum of material properties and applications. The versatility of nanocomposites is indeed reflected by the research covered in this Special Issue. The field of nanocomposites includes innovative science and a source of inspiration for currently relevant economic topics as well as for envisaged technologies of the future. Indeed, this volume alludes to strategies for the preparation of nanocomposites and possibilities for a variety of applications, such as catalytic reactions, gas barriers, high refractive index materials, corrosion protection, electromagnetic inference (EMI) shielding, lithium ion batteries, tissue engineering and plastic surgery.

Research & information: general --- broadband dielectric spectroscopy --- dielectric strength --- loss factor --- magnesium oxide --- nanocomposite --- relative permittivity --- surface functionalization --- voltage response --- lithium-ion battery --- ionic-liquid-based separator --- hot-pressing --- inorganic nanoparticle --- fractal cluster --- nanostructures --- polymer matrix composites (PMCs) --- mechanical properties --- thermal properties --- elastomeric foam --- plastic reconstruction --- hydroxyapatite/polyurethane --- nanosized dispersion --- viscoelasticity --- biocompatibility --- nanoreactor --- catalyst confinement --- Flash Nanoprecipitation --- diffusion --- poly(vinyl alcohol) --- nanofiller --- film --- catalytic durability --- nanoparticle --- supported catalyst --- radical reactions --- platinum (Pt) --- H2O2 decomposition --- contact lens cleaning --- polymer brushes --- nanoparticles --- SPION --- thin magnetic films --- ATRP --- hybrid polymer/inorganic composites --- titanium oxide --- hybrid material --- anatase --- organic-inorganic hybrid --- high refractive index material --- MXene --- oxidized carbon nanotube (CNTO) --- nanoparticle decoration --- functionalization --- electromagnetic interference (EMI) shielding --- anti-corrosion --- tin sulfide (SnS) --- molybdenum disulfide (MoS2) --- electrochemical test --- composite coating --- nanocomposites --- surface-functionalization --- secondary dispersion --- hot-stretching --- metal–polymer interface --- multilayer --- structure–function correlation --- indirect band gap --- GISAXS --- GIWAXS --- UV-Vis --- broadband dielectric spectroscopy --- dielectric strength --- loss factor --- magnesium oxide --- nanocomposite --- relative permittivity --- surface functionalization --- voltage response --- lithium-ion battery --- ionic-liquid-based separator --- hot-pressing --- inorganic nanoparticle --- fractal cluster --- nanostructures --- polymer matrix composites (PMCs) --- mechanical properties --- thermal properties --- elastomeric foam --- plastic reconstruction --- hydroxyapatite/polyurethane --- nanosized dispersion --- viscoelasticity --- biocompatibility --- nanoreactor --- catalyst confinement --- Flash Nanoprecipitation --- diffusion --- poly(vinyl alcohol) --- nanofiller --- film --- catalytic durability --- nanoparticle --- supported catalyst --- radical reactions --- platinum (Pt) --- H2O2 decomposition --- contact lens cleaning --- polymer brushes --- nanoparticles --- SPION --- thin magnetic films --- ATRP --- hybrid polymer/inorganic composites --- titanium oxide --- hybrid material --- anatase --- organic-inorganic hybrid --- high refractive index material --- MXene --- oxidized carbon nanotube (CNTO) --- nanoparticle decoration --- functionalization --- electromagnetic interference (EMI) shielding --- anti-corrosion --- tin sulfide (SnS) --- molybdenum disulfide (MoS2) --- electrochemical test --- composite coating --- nanocomposites --- surface-functionalization --- secondary dispersion --- hot-stretching --- metal–polymer interface --- multilayer --- structure–function correlation --- indirect band gap --- GISAXS --- GIWAXS --- UV-Vis

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The rise of photonics technologies has driven an extremely fast evolution in biosensing applications. Such rapid progress has created a gap of understanding and insight capability in the general public about advanced sensing systems that have been made progressively available by these new technologies. Thus, there is currently a clear need for moving the meaning of some keywords, such as plasmonic, into the daily vocabulary of a general audience with a reasonable degree of education. The selection of the scientific works reported in this book is carefully balanced between reviews and research papers and has the purpose of presenting a set of applications and case studies sufficiently broad enough to enlighten the reader attention toward the great potential of plasmonic biosensing and the great impact that can be expected in the near future for supporting disease screening and stratification.

Technology: general issues --- History of engineering & technology --- gold nanorods --- silica coating --- localized surface plasmon resonance (LSPR) --- surface functionalization --- SPR biosensor --- enzyme --- laccase --- chlorophene --- emerging pollutant --- water sample --- plasmonic nanowires --- molecular sensing --- surface-enhanced Raman spectroscopy --- porous alumina --- TREM2 sensors --- Alzheimer’s disease --- plasmonic interferometry --- optical biosensor --- surface plasmon resonance --- olfactory sensors --- electronic noses --- volatile organic compounds --- odorants --- SPR --- cell-based assay --- viral growth kinetics --- human coronavirus --- hydroxychloroquine --- protease --- caspase --- avidin-biotin interaction --- biosensors --- AuNPs --- metal–graphene hybrid --- simulations --- Mie theory --- African swine fever virus (ASFV) --- loop-mediated isothermal amplification (LAMP) --- surface plasmon resonance (SPR) --- fluorescence detection --- SERS analysis --- plasmonic metal nanoparticles --- hotspots --- hybrid materials

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The use of solid catalysts for the upgrade of renewable sources gives the opportunity to combine the two main cores of green chemistry, that is, on the one hand, the set-up of sustainable processes and, on the other, the use of biomass-derived materials. Solid catalysts have taken on a leading role in traditional petrochemical processes and could represent a key tool in new biorefinery-driven technologies.

biorefinery --- lignin --- citronellal --- biofuel production --- calcination temperature --- carbohydrates --- biomass valorization --- liquid phase reductive depolymerization --- terpenoids --- heterogeneous catalysis --- propylene glycol --- transition metals --- transfer hydrogenation --- acidic clays --- phenolic and aromatic compounds --- biofuels --- aqueous phase --- supported metals --- hybrid materials --- amination --- heterogeneous and homogeneous catalysts --- CuZn catalysts --- catalytic materials --- terpenes --- Lewis acids --- surface functional groups --- value-added products --- carbon nanotubes --- ethylene glycol --- biochar-supported metal catalysts --- calcination atmosphere --- xylitol --- alditol --- HMF --- biomass --- metal–organic frameworks (MOFs) --- hydrothermal carbonization --- solid-acid catalyst --- NMR --- solid base catalyst --- catalytic transfer hydrogenation --- surface functionalization --- transesterification --- biomass conversion --- hydrogen donors --- hydrogenolysis --- octahydroacridines --- solid acids

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The rise of photonics technologies has driven an extremely fast evolution in biosensing applications. Such rapid progress has created a gap of understanding and insight capability in the general public about advanced sensing systems that have been made progressively available by these new technologies. Thus, there is currently a clear need for moving the meaning of some keywords, such as plasmonic, into the daily vocabulary of a general audience with a reasonable degree of education. The selection of the scientific works reported in this book is carefully balanced between reviews and research papers and has the purpose of presenting a set of applications and case studies sufficiently broad enough to enlighten the reader attention toward the great potential of plasmonic biosensing and the great impact that can be expected in the near future for supporting disease screening and stratification.

gold nanorods --- silica coating --- localized surface plasmon resonance (LSPR) --- surface functionalization --- SPR biosensor --- enzyme --- laccase --- chlorophene --- emerging pollutant --- water sample --- plasmonic nanowires --- molecular sensing --- surface-enhanced Raman spectroscopy --- porous alumina --- TREM2 sensors --- Alzheimer’s disease --- plasmonic interferometry --- optical biosensor --- surface plasmon resonance --- olfactory sensors --- electronic noses --- volatile organic compounds --- odorants --- SPR --- cell-based assay --- viral growth kinetics --- human coronavirus --- hydroxychloroquine --- protease --- caspase --- avidin-biotin interaction --- biosensors --- AuNPs --- metal–graphene hybrid --- simulations --- Mie theory --- African swine fever virus (ASFV) --- loop-mediated isothermal amplification (LAMP) --- surface plasmon resonance (SPR) --- fluorescence detection --- SERS analysis --- plasmonic metal nanoparticles --- hotspots --- hybrid materials