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This reprint of “Metal Nanoparticles as Catalysts for Green Applications” collects recent works of researchers on metal nanoparticles as catalysts for green applications. All works deal with designing chemical products and processes that generate and use less (or preferably no) hazardous substances by applying the principles of green chemistry. Despite the interdisciplinary nature of the different applications involved, ranging from pure chemistry to material science, from chemical engineering to physical chemistry, in this reprint there are common characteristics connecting the areas together, and they can be described by two words: sustainability and catalysis.
Technology: general issues --- acetylene hydrogenation --- kinetic model --- catalyst decay --- process modeling --- Al2O3 --- bimetallic catalyst --- syngas --- methane --- partial oxidation --- ZrO2 --- metal-organic framework --- bimetallic metal-organic frameworks --- decarboxylative amidation --- polymeric catalytic membranes --- electrospinning --- HMF oxidation --- glucose --- biochemicals --- MCM-41 --- bimetallic --- reactivity --- product selectivity --- neem --- mint --- nZVI synthesis --- lead --- nickel --- soil remediation --- ethanol steam reforming --- Ni/CeO2 --- microemulsion --- coke resistance --- lanthanum doping --- hydrodeoxygenation --- guaiacol --- regeneration --- catalyst deactivation --- acetylene hydrogenation --- kinetic model --- catalyst decay --- process modeling --- Al2O3 --- bimetallic catalyst --- syngas --- methane --- partial oxidation --- ZrO2 --- metal-organic framework --- bimetallic metal-organic frameworks --- decarboxylative amidation --- polymeric catalytic membranes --- electrospinning --- HMF oxidation --- glucose --- biochemicals --- MCM-41 --- bimetallic --- reactivity --- product selectivity --- neem --- mint --- nZVI synthesis --- lead --- nickel --- soil remediation --- ethanol steam reforming --- Ni/CeO2 --- microemulsion --- coke resistance --- lanthanum doping --- hydrodeoxygenation --- guaiacol --- regeneration --- catalyst deactivation
Choose an application
This reprint of “Metal Nanoparticles as Catalysts for Green Applications” collects recent works of researchers on metal nanoparticles as catalysts for green applications. All works deal with designing chemical products and processes that generate and use less (or preferably no) hazardous substances by applying the principles of green chemistry. Despite the interdisciplinary nature of the different applications involved, ranging from pure chemistry to material science, from chemical engineering to physical chemistry, in this reprint there are common characteristics connecting the areas together, and they can be described by two words: sustainability and catalysis.
Technology: general issues --- acetylene hydrogenation --- kinetic model --- catalyst decay --- process modeling --- Al2O3 --- bimetallic catalyst --- syngas --- methane --- partial oxidation --- ZrO2 --- metal–organic framework --- bimetallic metal–organic frameworks --- decarboxylative amidation --- polymeric catalytic membranes --- electrospinning --- HMF oxidation --- glucose --- biochemicals --- MCM-41 --- bimetallic --- reactivity --- product selectivity --- neem --- mint --- nZVI synthesis --- lead --- nickel --- soil remediation --- ethanol steam reforming --- Ni/CeO2 --- microemulsion --- coke resistance --- lanthanum doping --- hydrodeoxygenation --- guaiacol --- regeneration --- catalyst deactivation --- n/a --- metal-organic framework --- bimetallic metal-organic frameworks
Choose an application
This reprint of “Metal Nanoparticles as Catalysts for Green Applications” collects recent works of researchers on metal nanoparticles as catalysts for green applications. All works deal with designing chemical products and processes that generate and use less (or preferably no) hazardous substances by applying the principles of green chemistry. Despite the interdisciplinary nature of the different applications involved, ranging from pure chemistry to material science, from chemical engineering to physical chemistry, in this reprint there are common characteristics connecting the areas together, and they can be described by two words: sustainability and catalysis.
acetylene hydrogenation --- kinetic model --- catalyst decay --- process modeling --- Al2O3 --- bimetallic catalyst --- syngas --- methane --- partial oxidation --- ZrO2 --- metal–organic framework --- bimetallic metal–organic frameworks --- decarboxylative amidation --- polymeric catalytic membranes --- electrospinning --- HMF oxidation --- glucose --- biochemicals --- MCM-41 --- bimetallic --- reactivity --- product selectivity --- neem --- mint --- nZVI synthesis --- lead --- nickel --- soil remediation --- ethanol steam reforming --- Ni/CeO2 --- microemulsion --- coke resistance --- lanthanum doping --- hydrodeoxygenation --- guaiacol --- regeneration --- catalyst deactivation --- n/a --- metal-organic framework --- bimetallic metal-organic frameworks
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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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