TY - BOOK ID - 145039470 TI - Synthesis, Characterization and Application of Hybrid Composites PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology KW - Merox process KW - dimethyl disulfide KW - metal phthalocyanine KW - activated carbon KW - sodium methylmercaptide oxidation KW - composite KW - polymer KW - crystalline graphite powder KW - transmittance property KW - shape-memory polymer KW - nickel powder KW - protrusive chain KW - shape-memory effect KW - surface morphology KW - poly(lactic acid) KW - flax fibers KW - biocomposites KW - predictive analytical model KW - mechanical properties KW - hybrid composite KW - PCL KW - TiO2 KW - SiO2 KW - FT-IR spectroscopy KW - antibacterial behavior KW - thermoset KW - polyester KW - bio-based KW - poultry feathers KW - fish gelatin methacrylate KW - strontium-doped calcium silicate KW - bone regeneration KW - cell-laden scaffold KW - bioprinting KW - recycling material KW - adhesion KW - NiTi plate KW - PMMA/NiTi composites KW - surface features KW - semiconductor nanocrystal KW - hybrid KW - solar cells KW - organic semiconductor KW - solution processed KW - surfactant KW - mechanico-thermal KW - nanocomposites KW - magneto-rheological (MR) KW - filler KW - elastomer KW - micro-structure KW - PA6 KW - montmorillonite KW - flammability KW - surface modification KW - thermal properties KW - flame retardants KW - hybrid composites KW - chemical engineering KW - Merox process KW - dimethyl disulfide KW - metal phthalocyanine KW - activated carbon KW - sodium methylmercaptide oxidation KW - composite KW - polymer KW - crystalline graphite powder KW - transmittance property KW - shape-memory polymer KW - nickel powder KW - protrusive chain KW - shape-memory effect KW - surface morphology KW - poly(lactic acid) KW - flax fibers KW - biocomposites KW - predictive analytical model KW - mechanical properties KW - hybrid composite KW - PCL KW - TiO2 KW - SiO2 KW - FT-IR spectroscopy KW - antibacterial behavior KW - thermoset KW - polyester KW - bio-based KW - poultry feathers KW - fish gelatin methacrylate KW - strontium-doped calcium silicate KW - bone regeneration KW - cell-laden scaffold KW - bioprinting KW - recycling material KW - adhesion KW - NiTi plate KW - PMMA/NiTi composites KW - surface features KW - semiconductor nanocrystal KW - hybrid KW - solar cells KW - organic semiconductor KW - solution processed KW - surfactant KW - mechanico-thermal KW - nanocomposites KW - magneto-rheological (MR) KW - filler KW - elastomer KW - micro-structure KW - PA6 KW - montmorillonite KW - flammability KW - surface modification KW - thermal properties KW - flame retardants KW - hybrid composites KW - chemical engineering UR - https://www.unicat.be/uniCat?func=search&query=sysid:145039470 AB - 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. ER -