TY - BOOK ID - 145787705 TI - Polymer Materials in Environmental Chemistry PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Research & information: general KW - Chemistry KW - laccase KW - polyamide 6 KW - nanofibers KW - wastewater treatment KW - endocrine disrupting chemicals KW - ethyl cellulose KW - liquid KW - imidazole KW - membrane KW - gas permeation properties KW - green synthesis KW - biopolymers KW - bimetallic nanoparticles KW - catalytic reduction KW - 4-nitrophenol KW - ciprofloxacin KW - adsorption KW - protein KW - moringa seeds KW - nanosilica KW - two-step model KW - coaxial electrospinning KW - core-sheath nanofibers KW - environmental remediation KW - unspinnable liquid KW - nanocoating KW - microstructures KW - nanostructures KW - surface morphology KW - filler dispersion KW - chemical composition KW - optical microscopy KW - scanning electron microscopy KW - transmission electron microscopy KW - atomic force microscopy KW - chemical quality KW - sensorial quality KW - chicken feet KW - collagen KW - health care product KW - gelatin KW - biofilms KW - sound absorption coefficient KW - impact strength KW - flexural strength KW - coefficient of thermal expansion KW - bio-composite KW - PET fibers KW - Cloisite KW - flame retardancy KW - LOI KW - TGA KW - FTIR KW - SEM KW - WAXS KW - SAXS KW - graphene KW - nanocomposite KW - Acid Blue 129 KW - silk fibers KW - ZnO KW - nanoflakes KW - photo-degradation KW - dye removal KW - antibacterial efficiency KW - biosafety KW - flocculation KW - removal efficiency KW - wastewater KW - biodegradable polyesters KW - plant substances KW - composting KW - laccase KW - polyamide 6 KW - nanofibers KW - wastewater treatment KW - endocrine disrupting chemicals KW - ethyl cellulose KW - liquid KW - imidazole KW - membrane KW - gas permeation properties KW - green synthesis KW - biopolymers KW - bimetallic nanoparticles KW - catalytic reduction KW - 4-nitrophenol KW - ciprofloxacin KW - adsorption KW - protein KW - moringa seeds KW - nanosilica KW - two-step model KW - coaxial electrospinning KW - core-sheath nanofibers KW - environmental remediation KW - unspinnable liquid KW - nanocoating KW - microstructures KW - nanostructures KW - surface morphology KW - filler dispersion KW - chemical composition KW - optical microscopy KW - scanning electron microscopy KW - transmission electron microscopy KW - atomic force microscopy KW - chemical quality KW - sensorial quality KW - chicken feet KW - collagen KW - health care product KW - gelatin KW - biofilms KW - sound absorption coefficient KW - impact strength KW - flexural strength KW - coefficient of thermal expansion KW - bio-composite KW - PET fibers KW - Cloisite KW - flame retardancy KW - LOI KW - TGA KW - FTIR KW - SEM KW - WAXS KW - SAXS KW - graphene KW - nanocomposite KW - Acid Blue 129 KW - silk fibers KW - ZnO KW - nanoflakes KW - photo-degradation KW - dye removal KW - antibacterial efficiency KW - biosafety KW - flocculation KW - removal efficiency KW - wastewater KW - biodegradable polyesters KW - plant substances KW - composting UR - https://www.unicat.be/uniCat?func=search&query=sysid:145787705 AB - The book entitled “Polymer Materials in Environmental Chemistry” focuses on functionalized natural/synthetic polymeric materials and their preparation, characterization, and multidimensional applications. This book extensively appraises the research papers on the latest developments of the functionalized natural/synthetic polymers, such as the effect of functionalized polymeric additives on the degradation of aliphatic polyesters, development of nanoparticle functionalized bio-based or composite polymeric structures, water or wastewater purification, natural fibers or clay-based hybrid polymers and their applications, environmental remediation of antibiotics and dyes using polymer-based nanofibers, bio-based polymeric conjugate for the synthesis of bimetallic nanoparticles and their catalytic degradation of ecological pollutant, polymeric-grafted membranes based on ethyl cellulose for gas separation, and polyamide–laccase nanofiber membranes for the degradation of organic and antibiotics from water. Additionally, the book envisages the reviews on recent developments in the techniques and visualization of biopolymer structures and their derivatives and fabrication and characterization of polymeric nanofibers via multidimensional electrospinning techniques and their appliances in environmental pollutant removal. ER -