Listing 1 - 6 of 6 |
Sort by
|
Choose an application
Amidst impending climate change and enhanced pollution levels around the globe, the need of the hour is to develop bio-based materials that are sustainable and possess comparable performance properties to their synthetic counterparts. In light of the aforementioned, numerous investigations are being conducted to identify, process, and create materials that are concurrently innocuous towards the environment and have superior properties. This book is a collection of such scientific articles that propagate novel ideas for the development of polymeric composite materials, which have application potential in numerous fields such as medicine, automobile, aviation, construction, etc. It also contains a pedagogical article that proposes some strategies to continue experimental research during pandemics. This book will provide readers a quick glance into recent developments regarding polymeric materials and will encourage them to propagate these research ideas further.
History of engineering & technology --- solid urban waste --- formaldehyde --- durability --- electrical properties --- mechanical properties --- recycling --- epoxy resin --- flammability --- heat release rate --- microscale combustion calorimetry --- multiple linear regression --- adaptive neuro-fuzzy inference system --- polyvinyl alcohol (PVA) --- bionanocomposites --- nanomechanical behaviour --- thin films --- particle size --- model free --- model fitting --- avrami–eroféev --- DAEM --- superhydrophobic surfaces --- self-healing --- natural hierarchical microstructures --- wood --- bio-composite --- linear low density polyethylene --- performance --- straws --- biocomposites --- nanofibers --- electrospinning --- cell culture --- graphene oxide --- barrier properties --- poly(lactic acid) --- clay --- nanocomposite --- permeability --- bacterial cellulose --- metal organic framework --- adsorption --- chitosan --- composite nanofibers --- silk fibroin --- polycaprolactone --- Taguchi --- rheological properties --- DMA --- injection molding --- thermal properties --- natural fibers --- biochar --- carbon fillers --- nanocomposites --- flame retardants --- fire --- n/a --- PHB --- natural fiber --- compatibilizer --- cellulose --- biocomposite --- avrami-eroféev
Choose an application
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.
Research & information: general --- Chemistry --- laccase --- polyamide 6 --- nanofibers --- wastewater treatment --- endocrine disrupting chemicals --- ethyl cellulose --- liquid --- imidazole --- membrane --- gas permeation properties --- green synthesis --- biopolymers --- bimetallic nanoparticles --- catalytic reduction --- 4-nitrophenol --- ciprofloxacin --- adsorption --- protein --- moringa seeds --- nanosilica --- two-step model --- coaxial electrospinning --- core-sheath nanofibers --- environmental remediation --- unspinnable liquid --- nanocoating --- microstructures --- nanostructures --- surface morphology --- filler dispersion --- chemical composition --- optical microscopy --- scanning electron microscopy --- transmission electron microscopy --- atomic force microscopy --- chemical quality --- sensorial quality --- chicken feet --- collagen --- health care product --- gelatin --- biofilms --- sound absorption coefficient --- impact strength --- flexural strength --- coefficient of thermal expansion --- bio-composite --- PET fibers --- Cloisite --- flame retardancy --- LOI --- TGA --- FTIR --- SEM --- WAXS --- SAXS --- graphene --- nanocomposite --- Acid Blue 129 --- silk fibers --- ZnO --- nanoflakes --- photo-degradation --- dye removal --- antibacterial efficiency --- biosafety --- flocculation --- removal efficiency --- wastewater --- biodegradable polyesters --- plant substances --- composting
Choose an application
Amidst impending climate change and enhanced pollution levels around the globe, the need of the hour is to develop bio-based materials that are sustainable and possess comparable performance properties to their synthetic counterparts. In light of the aforementioned, numerous investigations are being conducted to identify, process, and create materials that are concurrently innocuous towards the environment and have superior properties. This book is a collection of such scientific articles that propagate novel ideas for the development of polymeric composite materials, which have application potential in numerous fields such as medicine, automobile, aviation, construction, etc. It also contains a pedagogical article that proposes some strategies to continue experimental research during pandemics. This book will provide readers a quick glance into recent developments regarding polymeric materials and will encourage them to propagate these research ideas further.
History of engineering & technology --- solid urban waste --- formaldehyde --- durability --- electrical properties --- mechanical properties --- recycling --- epoxy resin --- flammability --- heat release rate --- microscale combustion calorimetry --- multiple linear regression --- adaptive neuro-fuzzy inference system --- polyvinyl alcohol (PVA) --- bionanocomposites --- nanomechanical behaviour --- thin films --- particle size --- model free --- model fitting --- avrami–eroféev --- DAEM --- superhydrophobic surfaces --- self-healing --- natural hierarchical microstructures --- wood --- bio-composite --- linear low density polyethylene --- performance --- straws --- biocomposites --- nanofibers --- electrospinning --- cell culture --- graphene oxide --- barrier properties --- poly(lactic acid) --- clay --- nanocomposite --- permeability --- bacterial cellulose --- metal organic framework --- adsorption --- chitosan --- composite nanofibers --- silk fibroin --- polycaprolactone --- Taguchi --- rheological properties --- DMA --- injection molding --- thermal properties --- natural fibers --- biochar --- carbon fillers --- nanocomposites --- flame retardants --- fire --- n/a --- PHB --- natural fiber --- compatibilizer --- cellulose --- biocomposite --- avrami-eroféev
Choose an application
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.
Research & information: general --- Chemistry --- laccase --- polyamide 6 --- nanofibers --- wastewater treatment --- endocrine disrupting chemicals --- ethyl cellulose --- liquid --- imidazole --- membrane --- gas permeation properties --- green synthesis --- biopolymers --- bimetallic nanoparticles --- catalytic reduction --- 4-nitrophenol --- ciprofloxacin --- adsorption --- protein --- moringa seeds --- nanosilica --- two-step model --- coaxial electrospinning --- core-sheath nanofibers --- environmental remediation --- unspinnable liquid --- nanocoating --- microstructures --- nanostructures --- surface morphology --- filler dispersion --- chemical composition --- optical microscopy --- scanning electron microscopy --- transmission electron microscopy --- atomic force microscopy --- chemical quality --- sensorial quality --- chicken feet --- collagen --- health care product --- gelatin --- biofilms --- sound absorption coefficient --- impact strength --- flexural strength --- coefficient of thermal expansion --- bio-composite --- PET fibers --- Cloisite --- flame retardancy --- LOI --- TGA --- FTIR --- SEM --- WAXS --- SAXS --- graphene --- nanocomposite --- Acid Blue 129 --- silk fibers --- ZnO --- nanoflakes --- photo-degradation --- dye removal --- antibacterial efficiency --- biosafety --- flocculation --- removal efficiency --- wastewater --- biodegradable polyesters --- plant substances --- composting
Choose an application
Amidst impending climate change and enhanced pollution levels around the globe, the need of the hour is to develop bio-based materials that are sustainable and possess comparable performance properties to their synthetic counterparts. In light of the aforementioned, numerous investigations are being conducted to identify, process, and create materials that are concurrently innocuous towards the environment and have superior properties. This book is a collection of such scientific articles that propagate novel ideas for the development of polymeric composite materials, which have application potential in numerous fields such as medicine, automobile, aviation, construction, etc. It also contains a pedagogical article that proposes some strategies to continue experimental research during pandemics. This book will provide readers a quick glance into recent developments regarding polymeric materials and will encourage them to propagate these research ideas further.
solid urban waste --- formaldehyde --- durability --- electrical properties --- mechanical properties --- recycling --- epoxy resin --- flammability --- heat release rate --- microscale combustion calorimetry --- multiple linear regression --- adaptive neuro-fuzzy inference system --- polyvinyl alcohol (PVA) --- bionanocomposites --- nanomechanical behaviour --- thin films --- particle size --- model free --- model fitting --- avrami–eroféev --- DAEM --- superhydrophobic surfaces --- self-healing --- natural hierarchical microstructures --- wood --- bio-composite --- linear low density polyethylene --- performance --- straws --- biocomposites --- nanofibers --- electrospinning --- cell culture --- graphene oxide --- barrier properties --- poly(lactic acid) --- clay --- nanocomposite --- permeability --- bacterial cellulose --- metal organic framework --- adsorption --- chitosan --- composite nanofibers --- silk fibroin --- polycaprolactone --- Taguchi --- rheological properties --- DMA --- injection molding --- thermal properties --- natural fibers --- biochar --- carbon fillers --- nanocomposites --- flame retardants --- fire --- n/a --- PHB --- natural fiber --- compatibilizer --- cellulose --- biocomposite --- avrami-eroféev
Choose an application
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.
laccase --- polyamide 6 --- nanofibers --- wastewater treatment --- endocrine disrupting chemicals --- ethyl cellulose --- liquid --- imidazole --- membrane --- gas permeation properties --- green synthesis --- biopolymers --- bimetallic nanoparticles --- catalytic reduction --- 4-nitrophenol --- ciprofloxacin --- adsorption --- protein --- moringa seeds --- nanosilica --- two-step model --- coaxial electrospinning --- core-sheath nanofibers --- environmental remediation --- unspinnable liquid --- nanocoating --- microstructures --- nanostructures --- surface morphology --- filler dispersion --- chemical composition --- optical microscopy --- scanning electron microscopy --- transmission electron microscopy --- atomic force microscopy --- chemical quality --- sensorial quality --- chicken feet --- collagen --- health care product --- gelatin --- biofilms --- sound absorption coefficient --- impact strength --- flexural strength --- coefficient of thermal expansion --- bio-composite --- PET fibers --- Cloisite --- flame retardancy --- LOI --- TGA --- FTIR --- SEM --- WAXS --- SAXS --- graphene --- nanocomposite --- Acid Blue 129 --- silk fibers --- ZnO --- nanoflakes --- photo-degradation --- dye removal --- antibacterial efficiency --- biosafety --- flocculation --- removal efficiency --- wastewater --- biodegradable polyesters --- plant substances --- composting
Listing 1 - 6 of 6 |
Sort by
|