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Polymer composites represent the platform materials of the XXI century and are an important slice of the market in the production of modern plastics. Their design is based on adding a second component to the polymer matrix to enhance its properties. Among the various possible composites, organic–inorganic hybrid materials offer advantageous performance relative to either of the non-hybrid counterparts. The dramatic improvement of physical properties, compared with pure materials, in which inorganic particles or nanoparticles are inserted into an organic polymeric matrix, could bridge the gap between ceramics and polymers. We are interested in articles that explore polymer-based hybrid systems. The Special Issue topics include the synthesis and characterization of polymeric hybrid materials—hybrid composites in electronics and energy applications; hybrid composites in space applications; the biomedical application of hybrid polymeric materials.
History of engineering & technology --- Merox process --- dimethyl disulfide --- metal phthalocyanine --- activated carbon --- sodium methylmercaptide oxidation --- composite --- polymer --- crystalline graphite powder --- transmittance property --- shape-memory polymer --- nickel powder --- protrusive chain --- shape-memory effect --- surface morphology --- poly(lactic acid) --- flax fibers --- biocomposites --- predictive analytical model --- mechanical properties --- hybrid composite --- PCL --- TiO2 --- SiO2 --- FT-IR spectroscopy --- antibacterial behavior --- thermoset --- polyester --- bio-based --- poultry feathers --- fish gelatin methacrylate --- strontium-doped calcium silicate --- bone regeneration --- cell-laden scaffold --- bioprinting --- recycling material --- adhesion --- NiTi plate --- PMMA/NiTi composites --- surface features --- semiconductor nanocrystal --- hybrid --- solar cells --- organic semiconductor --- solution processed --- surfactant --- mechanico-thermal --- nanocomposites --- magneto-rheological (MR) --- filler --- elastomer --- micro-structure --- PA6 --- montmorillonite --- flammability --- surface modification --- thermal properties --- flame retardants --- hybrid composites --- chemical engineering --- Merox process --- dimethyl disulfide --- metal phthalocyanine --- activated carbon --- sodium methylmercaptide oxidation --- composite --- polymer --- crystalline graphite powder --- transmittance property --- shape-memory polymer --- nickel powder --- protrusive chain --- shape-memory effect --- surface morphology --- poly(lactic acid) --- flax fibers --- biocomposites --- predictive analytical model --- mechanical properties --- hybrid composite --- PCL --- TiO2 --- SiO2 --- FT-IR spectroscopy --- antibacterial behavior --- thermoset --- polyester --- bio-based --- poultry feathers --- fish gelatin methacrylate --- strontium-doped calcium silicate --- bone regeneration --- cell-laden scaffold --- bioprinting --- recycling material --- adhesion --- NiTi plate --- PMMA/NiTi composites --- surface features --- semiconductor nanocrystal --- hybrid --- solar cells --- organic semiconductor --- solution processed --- surfactant --- mechanico-thermal --- nanocomposites --- magneto-rheological (MR) --- filler --- elastomer --- micro-structure --- PA6 --- montmorillonite --- flammability --- surface modification --- thermal properties --- flame retardants --- hybrid composites --- chemical engineering
Choose an application
Polymer composites represent the platform materials of the XXI century and are an important slice of the market in the production of modern plastics. Their design is based on adding a second component to the polymer matrix to enhance its properties. Among the various possible composites, organic–inorganic hybrid materials offer advantageous performance relative to either of the non-hybrid counterparts. The dramatic improvement of physical properties, compared with pure materials, in which inorganic particles or nanoparticles are inserted into an organic polymeric matrix, could bridge the gap between ceramics and polymers. We are interested in articles that explore polymer-based hybrid systems. The Special Issue topics include the synthesis and characterization of polymeric hybrid materials—hybrid composites in electronics and energy applications; hybrid composites in space applications; the biomedical application of hybrid polymeric materials.
History of engineering & technology --- Merox process --- dimethyl disulfide --- metal phthalocyanine --- activated carbon --- sodium methylmercaptide oxidation --- composite --- polymer --- crystalline graphite powder --- transmittance property --- shape-memory polymer --- nickel powder --- protrusive chain --- shape-memory effect --- surface morphology --- poly(lactic acid) --- flax fibers --- biocomposites --- predictive analytical model --- mechanical properties --- hybrid composite --- PCL --- TiO2 --- SiO2 --- FT-IR spectroscopy --- antibacterial behavior --- thermoset --- polyester --- bio-based --- poultry feathers --- fish gelatin methacrylate --- strontium-doped calcium silicate --- bone regeneration --- cell-laden scaffold --- bioprinting --- recycling material --- adhesion --- NiTi plate --- PMMA/NiTi composites --- surface features --- semiconductor nanocrystal --- hybrid --- solar cells --- organic semiconductor --- solution processed --- surfactant --- mechanico-thermal --- nanocomposites --- magneto-rheological (MR) --- filler --- elastomer --- micro-structure --- PA6 --- montmorillonite --- flammability --- surface modification --- thermal properties --- flame retardants --- hybrid composites --- chemical engineering --- n/a
Choose an application
Polymer composites represent the platform materials of the XXI century and are an important slice of the market in the production of modern plastics. Their design is based on adding a second component to the polymer matrix to enhance its properties. Among the various possible composites, organic–inorganic hybrid materials offer advantageous performance relative to either of the non-hybrid counterparts. The dramatic improvement of physical properties, compared with pure materials, in which inorganic particles or nanoparticles are inserted into an organic polymeric matrix, could bridge the gap between ceramics and polymers. We are interested in articles that explore polymer-based hybrid systems. The Special Issue topics include the synthesis and characterization of polymeric hybrid materials—hybrid composites in electronics and energy applications; hybrid composites in space applications; the biomedical application of hybrid polymeric materials.
Merox process --- dimethyl disulfide --- metal phthalocyanine --- activated carbon --- sodium methylmercaptide oxidation --- composite --- polymer --- crystalline graphite powder --- transmittance property --- shape-memory polymer --- nickel powder --- protrusive chain --- shape-memory effect --- surface morphology --- poly(lactic acid) --- flax fibers --- biocomposites --- predictive analytical model --- mechanical properties --- hybrid composite --- PCL --- TiO2 --- SiO2 --- FT-IR spectroscopy --- antibacterial behavior --- thermoset --- polyester --- bio-based --- poultry feathers --- fish gelatin methacrylate --- strontium-doped calcium silicate --- bone regeneration --- cell-laden scaffold --- bioprinting --- recycling material --- adhesion --- NiTi plate --- PMMA/NiTi composites --- surface features --- semiconductor nanocrystal --- hybrid --- solar cells --- organic semiconductor --- solution processed --- surfactant --- mechanico-thermal --- nanocomposites --- magneto-rheological (MR) --- filler --- elastomer --- micro-structure --- PA6 --- montmorillonite --- flammability --- surface modification --- thermal properties --- flame retardants --- hybrid composites --- chemical engineering --- n/a
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