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The main objective of polymer materials scientists is to develop and design high performance polymer-based materials via the introduction of block copolymers, ionomers or inorganic-organic hybrids, in order to introduce functionalities such as mechanical reinforcement, gas barrier properties, fire retardancy, shape memory behavior or self-healing ability. In the last ten years, ionic liquids have demonstrated huge potential as new components within polymer-based materials, leading to a wide range of applications. Due to their many physical-chemical properties, as well as their various possible combinations, ionic liquids represent a new path to produce multifunctional materials.
History of engineering & technology --- ionic liquids --- thermosets --- Lithium salts --- electrolytes --- polyoxymethylene --- ionic liquid --- crystallization behavior --- nucleation --- polymerizable ionic liquid microemulsions --- poly(ionic liquid)s --- adsorption --- poly(ionic liquid) --- cross-linker --- electrochemical detection --- 4-nonylphenol --- poly (butylene adipate-co-terephthalate) --- layered double hydroxide --- in-situ polymerization --- nanocomposite --- permeability --- biodegradable polymer --- IR spectroscopy --- silica --- high pressure --- microwave --- synthetic methods --- nanomaterials --- polymers --- humidity sensing --- free-ion concentration --- fast response and recovery --- respiratory rate monitoring --- PMMA --- plasticizer --- mechanical behavior --- crazing --- thermal behavior --- ionic liquids --- thermosets --- Lithium salts --- electrolytes --- polyoxymethylene --- ionic liquid --- crystallization behavior --- nucleation --- polymerizable ionic liquid microemulsions --- poly(ionic liquid)s --- adsorption --- poly(ionic liquid) --- cross-linker --- electrochemical detection --- 4-nonylphenol --- poly (butylene adipate-co-terephthalate) --- layered double hydroxide --- in-situ polymerization --- nanocomposite --- permeability --- biodegradable polymer --- IR spectroscopy --- silica --- high pressure --- microwave --- synthetic methods --- nanomaterials --- polymers --- humidity sensing --- free-ion concentration --- fast response and recovery --- respiratory rate monitoring --- PMMA --- plasticizer --- mechanical behavior --- crazing --- thermal behavior
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The main objective of polymer materials scientists is to develop and design high performance polymer-based materials via the introduction of block copolymers, ionomers or inorganic-organic hybrids, in order to introduce functionalities such as mechanical reinforcement, gas barrier properties, fire retardancy, shape memory behavior or self-healing ability. In the last ten years, ionic liquids have demonstrated huge potential as new components within polymer-based materials, leading to a wide range of applications. Due to their many physical-chemical properties, as well as their various possible combinations, ionic liquids represent a new path to produce multifunctional materials.
History of engineering & technology --- ionic liquids --- thermosets --- Lithium salts --- electrolytes --- polyoxymethylene --- ionic liquid --- crystallization behavior --- nucleation --- polymerizable ionic liquid microemulsions --- poly(ionic liquid)s --- adsorption --- poly(ionic liquid) --- cross-linker --- electrochemical detection --- 4-nonylphenol --- poly (butylene adipate-co-terephthalate) --- layered double hydroxide --- in-situ polymerization --- nanocomposite --- permeability --- biodegradable polymer --- IR spectroscopy --- silica --- high pressure --- microwave --- synthetic methods --- nanomaterials --- polymers --- humidity sensing --- free-ion concentration --- fast response and recovery --- respiratory rate monitoring --- PMMA --- plasticizer --- mechanical behavior --- crazing --- thermal behavior
Choose an application
The main objective of polymer materials scientists is to develop and design high performance polymer-based materials via the introduction of block copolymers, ionomers or inorganic-organic hybrids, in order to introduce functionalities such as mechanical reinforcement, gas barrier properties, fire retardancy, shape memory behavior or self-healing ability. In the last ten years, ionic liquids have demonstrated huge potential as new components within polymer-based materials, leading to a wide range of applications. Due to their many physical-chemical properties, as well as their various possible combinations, ionic liquids represent a new path to produce multifunctional materials.
ionic liquids --- thermosets --- Lithium salts --- electrolytes --- polyoxymethylene --- ionic liquid --- crystallization behavior --- nucleation --- polymerizable ionic liquid microemulsions --- poly(ionic liquid)s --- adsorption --- poly(ionic liquid) --- cross-linker --- electrochemical detection --- 4-nonylphenol --- poly (butylene adipate-co-terephthalate) --- layered double hydroxide --- in-situ polymerization --- nanocomposite --- permeability --- biodegradable polymer --- IR spectroscopy --- silica --- high pressure --- microwave --- synthetic methods --- nanomaterials --- polymers --- humidity sensing --- free-ion concentration --- fast response and recovery --- respiratory rate monitoring --- PMMA --- plasticizer --- mechanical behavior --- crazing --- thermal behavior
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This Special Issue focuses on the current state-of-the-art of “Polymer Clay Nano-Composites” for biomedical, anticorrosion, antibacterial, and other applications. Clay–polymer composite nanomaterials represent an emerging area of research. Loading polymers with clay particles essentially enhances the composite strength features. Of particular interest are different nano-assembly methods, such as silane mono and multilayers, polyelectrolyte layer-by-layer assembly, and others. An important development was reached for tubular and fibrous clay nanoparticles, such as halloysite, sepiolite, and imogolite. Polymer clay nanoparticles can be prepared as sheets with 1-nm thickness and width of a few hundred nm (e.g., kaolin and montmorillonite). Fibrous clays significantly reinforce the nano-composites in the assembly with biopolymers and other green polymers, leading to functional hybrid bio nano-composites. The scope of this Special Issue comprehensively includes the synthesis and characterization of polymer clay nano-composites used for several applications, including nano-clay polymer composites and hybrid nano-assemblies.
graphene oxide --- n/a --- polysaccharide --- water resistance --- nanocomposites --- layered silicate --- polyimide --- intercalation --- barrier --- composite --- indentation recovery --- ionic network --- organically modified clays --- nanotechnology --- 2-polybutadiene --- doxorubicin --- sericite --- adsorption --- morphology --- phenyltrimethylammonium chloride --- supercritical CO2 --- blowing agent --- halloysite nanotubes --- mechanical properties --- glycerol --- ammonium persulfate --- TGA --- 1 --- interfacial interactions --- carbon fibers --- nanocomposite materials --- silica sol --- N?-methylenebisacrylamide --- intercalation stability --- polymer composites --- clay–polymer nanocomposites --- in-situ intercalation --- attapulgite/polypyrrole nanocomposite --- fish gelatin --- polyacrylic acid --- fuzzy optimization --- AFM --- variable cost --- organic montmorillonite --- positron annihilation --- whey protein isolate --- interface --- CTAB --- N --- hyaluronic acid --- swelling capacity --- water shutoff --- montmorillonite --- sol–gel transition --- in situ polymerization --- hexadecyltrimethylammonium bromide --- clay-amine interaction mechanisms --- gelation kinetics --- FTIR --- surface grafting --- Pareto set --- la uptake and release --- polyamines --- polystyrene foam --- CD44 receptor targeted --- tribological property --- polyethylene oxide --- structure effects --- catalytic composite --- polystyrene --- nanoclay --- thermal stability --- sacrificial bond --- Pd catalysis --- radical polymerization --- dental resins --- reinforcing --- montmorillonite clays --- coatings --- atrazine --- cellulose nanofibrils --- soap-free emulsion polymerization --- LAP --- doubly functionalized montmorillonite --- dispersion --- organo-clays --- clay-polymer nanocomposites --- sol-gel transition
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This Special Issue, entitled “Advanced Polymer Nanocomposites”, collects high-level original and review papers, focused on scientific discussions and practical applications in the field of functional polymer nanocomposites, including (a) optoelectronic materials (papers 1–6), (b) biomedical materials (papers 7–12), and (c) other functional polymer nanocomposites (papers 13–18).
Technology: general issues --- POSS --- poly(vinyl chloride) --- plasticizer --- nanocomposites --- graphene --- electrically conductive adhesive --- fillers --- TiO2 --- Al2O3 --- BN --- resins --- wearable pressure sensor --- piezoresistive sensor --- fiber assembly --- nanofiber aerogel --- reduced graphene oxide --- nano-TiO2 --- poly-geminal dicationic ionic liquid --- hydroquinone --- catechol --- transparent polyimide --- nanocomposite --- film --- organoclay --- thermo-mechanical properties --- optical transparency --- CFRP --- Carbon nanotubes --- Nanocomposites --- Split Hopkinson Pressure Bar --- Energy absorption --- root canal obturation --- composites --- urethane acrylates --- nanoscale silicate platelets --- carbon dioxide-based resins --- dental resin composite --- montmorillonite --- palygorskite --- cartilage tissue --- amphiphilic gelatin microcapsules --- tissue-mimetic pellets --- magnetic stimulation --- CD44 receptor --- soluble polyimide --- polyurethane --- Jeffamine --- organic-inorganic hybrid film --- Stretchable transistor --- silicone nanoparticles --- PDMS --- TEOS --- hydrogels --- soft contact lenses --- polymerizable reduced graphene oxide --- in situ polymerization --- electrical conductivity --- dispersion of 2D nanosheets --- powder coating --- thermal conductivity --- heat dissipation --- thermal radiation --- vanadium redox flow battery --- carbon felt --- atmospheric plasma --- polyacrylonitrile --- 3D printing process --- mesoporous iron oxide --- microneedles --- minoxidil --- electrochemical polymerization --- PEDOT --- graphene oxide --- anti-fouling capability --- anti-bacterial capability --- black phosphorene --- boron nitride --- flame retardant --- waterborne polyurethane --- organic montmorillonite --- natural rubber --- damping properties --- mechanical properties
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This book focuses on fundamental and applied research on polymer processing and its effect on the final surface as the optimization of polymer surface properties results in the unique applicability of these over other materials. The development and testing of the next generation of polymeric and composite materials is of particular interest. Special attention is given to polymer surface modification, external stimuli-responsive surfaces, coatings, adhesion, polymer and composites fatigue analysis, evaluation of the surface quality and microhardness, processing parameter optimization, characterization techniques, among others.
Research & information: general --- Biology, life sciences --- thermoplastic polyurethanes blends --- pressure sensitive adhesives --- viscoelastic properties --- adhesion properties --- tack --- creep --- cohesion properties --- nano-structure functional film --- magnetron sputtering --- cellulose insulation polymer --- space charge --- hydrophobicity --- zinc oxide --- polytetrafluoroethylene --- bromoisobutyryl esterification --- cornstarch --- synthesis process --- past stability --- adhesion --- film properties --- mullite --- whiskers --- nonaqueous precipitation method --- aluminum fluoride --- polar transformation --- screw --- aspect ratio --- carbon nanotube --- dispersion --- masterbatch --- nanocomposite --- polyamide --- polyamide 6 --- halloysite nanotube --- functionalizing agent --- in situ polymerization --- melt blending --- polymorphism --- hydrothermal ageing --- polymers --- octaglycidyl-POSS --- DGEBA --- dicyandiamide --- accelerators --- corrosion --- protective coatings --- infrared spectroscopy --- rheology --- poplar wood --- waterborne UV lacquer product --- wood modification --- contact angle --- spectroscopy --- super-hydrophobic coating --- elastic sensor --- carbon nanotubes --- wearable electronics --- monitoring of breathing --- strain sensor --- polymer composite --- CNTs --- construction composite --- friction resistance --- surface state --- low dielectric constant --- PI --- irradiation --- dielectric loss --- tin compounds --- valsartan --- poly(vinyl chloride) --- additives --- average molecular weight --- weight loss --- functional group index --- PET --- polymer --- plasma jet --- tilted application --- ROS distribution --- UV --- VUV --- epoxy --- Joule heating --- fast curing --- accelerated forming --- shape memory --- Acrylonitrile Butadiene Styrene --- sound absorption --- 3D printing technology --- frequency --- thickness --- air gap --- polyvinyl alcohol --- cationic polyacrylamide --- polyvinyl chloride --- azodicarbonamide --- micro-structure --- diffusion plate --- micro injection molding --- grinding --- ethylene-octene-copolymer --- carbon fibers --- polyaniline --- polypyrrole --- thermoelectric composites --- surface coating --- dopamine hydrochloride --- graphene oxide --- surgical suture --- friction --- Poly(vinylidene chloride-co-acrylonitrile) (P(VDC-co-AN )) --- thermo-dynamic surface characterization --- surface free energy --- inverse gas chromatography --- visual traits --- computer vision and image processing --- basalt fiber --- epoxy composite --- glass transition temperature --- DMA --- TMA --- creep recovery --- stress-relaxation --- heterogeneous nucleation --- cell morphology --- injection molding foaming --- composite materials --- visualization --- gloss transition defect --- surface defect --- surface gloss --- shrinkage --- mold surface replication --- surface analysis --- injection molding --- polymer surface modification --- hydrophobic properties --- optimization --- mathematical modeling --- poly(ethylene glycol) (PEG) --- conjugation --- N,N′-disuccinimidyl carbonate (DSC) --- immobilization --- surface modification --- ultra-high molecular weight polyethylene --- cellulose nanofiber --- bionanocomposite --- melt-blending --- ethanol mixing --- thermoplastic polyurethanes blends --- pressure sensitive adhesives --- viscoelastic properties --- adhesion properties --- tack --- creep --- cohesion properties --- nano-structure functional film --- magnetron sputtering --- cellulose insulation polymer --- space charge --- hydrophobicity --- zinc oxide --- polytetrafluoroethylene --- bromoisobutyryl esterification --- cornstarch --- synthesis process --- past stability --- adhesion --- film properties --- mullite --- whiskers --- nonaqueous precipitation method --- aluminum fluoride --- polar transformation --- screw --- aspect ratio --- carbon nanotube --- dispersion --- masterbatch --- nanocomposite --- polyamide --- polyamide 6 --- halloysite nanotube --- functionalizing agent --- in situ polymerization --- melt blending --- polymorphism --- hydrothermal ageing --- polymers --- octaglycidyl-POSS --- DGEBA --- dicyandiamide --- accelerators --- corrosion --- protective coatings --- infrared spectroscopy --- rheology --- poplar wood --- waterborne UV lacquer product --- wood modification --- contact angle --- spectroscopy --- super-hydrophobic coating --- elastic sensor --- carbon nanotubes --- wearable electronics --- monitoring of breathing --- strain sensor --- polymer composite --- CNTs --- construction composite --- friction resistance --- surface state --- low dielectric constant --- PI --- irradiation --- dielectric loss --- tin compounds --- valsartan --- poly(vinyl chloride) --- additives --- average molecular weight --- weight loss --- functional group index --- PET --- polymer --- plasma jet --- tilted application --- ROS distribution --- UV --- VUV --- epoxy --- Joule heating --- fast curing --- accelerated forming --- shape memory --- Acrylonitrile Butadiene Styrene --- sound absorption --- 3D printing technology --- frequency --- thickness --- air gap --- polyvinyl alcohol --- cationic polyacrylamide --- polyvinyl chloride --- azodicarbonamide --- micro-structure --- diffusion plate --- micro injection molding --- grinding --- ethylene-octene-copolymer --- carbon fibers --- polyaniline --- polypyrrole --- thermoelectric composites --- surface coating --- dopamine hydrochloride --- graphene oxide --- surgical suture --- friction --- Poly(vinylidene chloride-co-acrylonitrile) (P(VDC-co-AN )) --- thermo-dynamic surface characterization --- surface free energy --- inverse gas chromatography --- visual traits --- computer vision and image processing --- basalt fiber --- epoxy composite --- glass transition temperature --- DMA --- TMA --- creep recovery --- stress-relaxation --- heterogeneous nucleation --- cell morphology --- injection molding foaming --- composite materials --- visualization --- gloss transition defect --- surface defect --- surface gloss --- shrinkage --- mold surface replication --- surface analysis --- injection molding --- polymer surface modification --- hydrophobic properties --- optimization --- mathematical modeling --- poly(ethylene glycol) (PEG) --- conjugation --- N,N′-disuccinimidyl carbonate (DSC) --- immobilization --- surface modification --- ultra-high molecular weight polyethylene --- cellulose nanofiber --- bionanocomposite --- melt-blending --- ethanol mixing
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The aim of this reprint is to highlight the progress and fundamental aspects for the synthesis, characterization, properties, and application of novel polymeric materials, as well as their copolymers, composites, and nanocomposites.
Plastics & polymers technology --- poly(lactic acid) --- epoxidized natural rubber --- polymer blend --- natural additives --- antioxidant --- polymer blending --- radiation crosslinking --- polyethylene --- polyurethane --- heat resistance --- mechanical property --- aramid fiber --- ballistic test --- failure mechanism --- cyclotriphosphazane --- flame retardancy --- dielectric properties --- azo compound --- liquid crystal --- structure–property relationship --- axial behavior --- geopolymer concrete (GC) --- ferrocement --- finite element analysis (FEA) --- polyacrylonitrile --- lignin --- electrospinning --- selective chemical dissolution --- porous nanofibers --- nanofibers --- soft template --- peat soil --- cement --- stabilization --- fly ash --- polypropylene fiber --- unconfined compressive strength (UCS) --- California bearing ratio (CBR) --- scanning electron microscopy (SEM) --- bio-based polyurethanes --- jatropha oil --- algae oil --- recovered palm oil --- epoxy composite --- green composite --- corn cob --- polycarbonates --- transesterification --- polycondensation --- polymer --- hydrogen --- hydrophobic --- sensing --- nanostructures --- palladium --- polymer composite --- fibre-prestressing --- residual stresses --- PCL–SBA-15 nanocomposites --- real-time variable-temperature synchrotron measurements --- confinement --- mechanical behavior --- nanoclay --- nanocomposites --- mechanical properties --- impact properties --- hardness --- polymer composites --- graphene quantum dots --- bioactive --- biomedical --- synthesis --- PVK --- hexylthiophene --- PANI --- nanocomposite --- photovoltaic cells --- DFT --- polyhydroxyalkanoates --- fibers --- biodegradability --- packaging --- patents --- poly(aminopropyl/phenyl)silsesquioxane --- thiol-ene --- kinetics --- activation energy --- polymer characterization --- viscoelasticity --- DMA --- solution blow spinning --- polyethylene oxide --- morphology --- materials characterization --- polymer dissolution --- kaolin flocculation --- aggregate resistance --- salinity --- flocculation kinetic --- shear rate --- thermoplastic starch --- silane --- foam --- carbon dioxide --- microcapsules --- dip coating --- encapsulation --- spectroscopy --- microscopy --- antibacterial silver --- polyaniline --- dodecylbenzene sulfonic acid --- γ-Al2O3 --- in situ polymerization --- core–shell nanocomposite --- polyphosphazene --- micro-nanospheres --- species-absorbing mechanisms --- hydrophobicity --- thermochemical --- PVDF --- alkali-grafting --- α-methyl styrene --- acrylonitrile --- proton exchange membrane --- block copolymers --- random copolymers --- catalytic membranes --- esterification --- isopropyl acetate --- bioinspired bottlebrush polymers --- aqueous boundary lubrication --- friction --- wear resistance --- supramolecular hydrogel --- acrylic acid --- maleic anhydride --- terpyridine --- coordination interaction --- thermoplastic polyurethanes --- surface free energy --- dithiol --- differential scanning calorimetry --- optical properties --- arsine --- ligands --- polypropylene --- catalyst --- degradation --- sol-gel process --- 3D network hybrid materials --- nanoparticles --- nanodispersity --- ionic liquids --- n/a --- structure-property relationship --- PCL-SBA-15 nanocomposites --- core-shell nanocomposite
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This book focuses on fundamental and applied research on polymer processing and its effect on the final surface as the optimization of polymer surface properties results in the unique applicability of these over other materials. The development and testing of the next generation of polymeric and composite materials is of particular interest. Special attention is given to polymer surface modification, external stimuli-responsive surfaces, coatings, adhesion, polymer and composites fatigue analysis, evaluation of the surface quality and microhardness, processing parameter optimization, characterization techniques, among others.
thermoplastic polyurethanes blends --- pressure sensitive adhesives --- viscoelastic properties --- adhesion properties --- tack --- creep --- cohesion properties --- nano-structure functional film --- magnetron sputtering --- cellulose insulation polymer --- space charge --- hydrophobicity --- zinc oxide --- polytetrafluoroethylene --- bromoisobutyryl esterification --- cornstarch --- synthesis process --- past stability --- adhesion --- film properties --- mullite --- whiskers --- nonaqueous precipitation method --- aluminum fluoride --- polar transformation --- screw --- aspect ratio --- carbon nanotube --- dispersion --- masterbatch --- nanocomposite --- polyamide --- polyamide 6 --- halloysite nanotube --- functionalizing agent --- in situ polymerization --- melt blending --- polymorphism --- hydrothermal ageing --- polymers --- octaglycidyl-POSS --- DGEBA --- dicyandiamide --- accelerators --- corrosion --- protective coatings --- infrared spectroscopy --- rheology --- poplar wood --- waterborne UV lacquer product --- wood modification --- contact angle --- spectroscopy --- super-hydrophobic coating --- elastic sensor --- carbon nanotubes --- wearable electronics --- monitoring of breathing --- strain sensor --- polymer composite --- CNTs --- construction composite --- friction resistance --- surface state --- low dielectric constant --- PI --- irradiation --- dielectric loss --- tin compounds --- valsartan --- poly(vinyl chloride) --- additives --- average molecular weight --- weight loss --- functional group index --- PET --- polymer --- plasma jet --- tilted application --- ROS distribution --- UV --- VUV --- epoxy --- Joule heating --- fast curing --- accelerated forming --- shape memory --- Acrylonitrile Butadiene Styrene --- sound absorption --- 3D printing technology --- frequency --- thickness --- air gap --- polyvinyl alcohol --- cationic polyacrylamide --- polyvinyl chloride --- azodicarbonamide --- micro-structure --- diffusion plate --- micro injection molding --- grinding --- ethylene-octene-copolymer --- carbon fibers --- polyaniline --- polypyrrole --- thermoelectric composites --- surface coating --- dopamine hydrochloride --- graphene oxide --- surgical suture --- friction --- Poly(vinylidene chloride-co-acrylonitrile) (P(VDC-co-AN )) --- thermo-dynamic surface characterization --- surface free energy --- inverse gas chromatography --- visual traits --- computer vision and image processing --- basalt fiber --- epoxy composite --- glass transition temperature --- DMA --- TMA --- creep recovery --- stress-relaxation --- heterogeneous nucleation --- cell morphology --- injection molding foaming --- composite materials --- visualization --- gloss transition defect --- surface defect --- surface gloss --- shrinkage --- mold surface replication --- surface analysis --- injection molding --- polymer surface modification --- hydrophobic properties --- optimization --- mathematical modeling --- poly(ethylene glycol) (PEG) --- conjugation --- N,N′-disuccinimidyl carbonate (DSC) --- immobilization --- surface modification --- ultra-high molecular weight polyethylene --- cellulose nanofiber --- bionanocomposite --- melt-blending --- ethanol mixing
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