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New approaches to deal with the growing concern associated with antibiotic-resistant bacteria are in great demand. For many years, antibiotics have widely been employed to treat infections. However, their excessive consumption and misuse have accelerated the rise of antibiotic-resistant microorganisms, which constitute a major challenge to global health. The antibiotic crisis is now a general concern; therefore, alternative biomolecules or drug delivery systems to treat infections are urgently needed. From natural extracts to traditional medicine remedies, to newly engineered nanocapsules and nanoparticles, to bio-based, biodegradable delivery platforms, many systems to fight infections are explored in this book.

Research & information: general --- Chemistry --- nanoparticles --- 4-Nerolidylcatechol --- antifungals --- Microsporum canis --- polycaprolactone --- nanoprecipitation --- silver nanoparticles --- green synthesis method --- Catharanthus roseus --- Azadirachta indica --- multidrug-resistant bacteria --- wound healing --- nosocomial infection --- plant extract --- grapefruit seed extract --- antibacterial activity --- fiber-hydrogel composite --- biodegradable polymers --- skin regeneration --- drug delivery platforms --- controlled release --- tetramycin --- antimicrobial activity --- kiwifruit disease --- conventional antibiotics --- storage quality --- gold nanoparticles --- flavonoids --- Gram-negative bacteria --- DNA gyrase --- in silico --- multidrug-resistant Acinetobacter baumannii (MDR-AB) --- hypertonic saline --- antibiotics --- biofilm --- aerosol delivery --- ultrahigh-throughput screening --- live biosensors --- antibiotic discovery --- gram-negative pathogens --- microfluidic droplet cocultivation --- efficient promoters --- polymyxins --- colistin biosynthetic gene cluster --- single cell --- multi-omics --- quercetin --- magnesium-doped calcium silicate --- osteogenic activity --- bone regeneration and nanofiber scaffold --- bulk-tank milk --- mastitis --- methicillin --- milk --- goat --- somatic cell counts --- staphylococcus --- tetracycline --- total bacterial counts --- prosthetic joint infection --- local prevention --- allicin --- chitosan --- Sphaerotheca sp. --- antibiotic --- Rosa roxburghii --- cyclic diphenylphosphonate --- quinoline --- DNA gyrase inhibitor --- molecular docking --- magnesium ion --- nanoparticles --- 4-Nerolidylcatechol --- antifungals --- Microsporum canis --- polycaprolactone --- nanoprecipitation --- silver nanoparticles --- green synthesis method --- Catharanthus roseus --- Azadirachta indica --- multidrug-resistant bacteria --- wound healing --- nosocomial infection --- plant extract --- grapefruit seed extract --- antibacterial activity --- fiber-hydrogel composite --- biodegradable polymers --- skin regeneration --- drug delivery platforms --- controlled release --- tetramycin --- antimicrobial activity --- kiwifruit disease --- conventional antibiotics --- storage quality --- gold nanoparticles --- flavonoids --- Gram-negative bacteria --- DNA gyrase --- in silico --- multidrug-resistant Acinetobacter baumannii (MDR-AB) --- hypertonic saline --- antibiotics --- biofilm --- aerosol delivery --- ultrahigh-throughput screening --- live biosensors --- antibiotic discovery --- gram-negative pathogens --- microfluidic droplet cocultivation --- efficient promoters --- polymyxins --- colistin biosynthetic gene cluster --- single cell --- multi-omics --- quercetin --- magnesium-doped calcium silicate --- osteogenic activity --- bone regeneration and nanofiber scaffold --- bulk-tank milk --- mastitis --- methicillin --- milk --- goat --- somatic cell counts --- staphylococcus --- tetracycline --- total bacterial counts --- prosthetic joint infection --- local prevention --- allicin --- chitosan --- Sphaerotheca sp. --- antibiotic --- Rosa roxburghii --- cyclic diphenylphosphonate --- quinoline --- DNA gyrase inhibitor --- molecular docking --- magnesium ion

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The extraction and exploration of cellulose-based polymers is an exciting area of research. For many years, wood (especially from bleached kraft wood pulp) was considered the main source of cellulosic compounds because of its abundance in nature. However, in the past decade, researchers have been devoted to finding alternatives to extract cellulose from byproducts of agricultural crops and/or textile wastes, which are both highly available at a very reduced raw material cost. This book brings together original research that details the recent progresses and new developments in this field, and how this research is contributing to a circular economy.

Research & information: general --- Physics --- citrus sinensis --- nano-fibrillated cellulose --- silver nanoparticles --- acid hydrolysis --- heavy metal sorption --- anaerobic digestion --- biofuel --- biomass --- cotton-based waste --- closed-loop --- lignocellulose --- textile waste --- cellulose nanofibre --- green materials --- biopolymers --- environmental --- recycled newspaper --- composite laminates --- water resistance --- high strength --- cotton wastes --- textile --- nanomaterials --- cellulose nanocrystal --- extraction methods --- environmental application --- regenerated cellulose fiber --- Au NP --- controllably assembled --- SERS --- dimetridazole --- cellulose hydrogel --- thermo-responsive --- sustained release --- silver sulfadiazine --- burn wound --- polymer --- carpet fiber --- direct analysis in real time --- time of flight --- mass spectrometry --- function switching --- oleamide --- cellulose nanofibers isolation --- carpet wastes --- supercritical carbon dioxide --- enhanced properties --- recovery of cellulose --- textile fibers --- eco-efficiency --- circular economy --- textile industry --- citrus sinensis --- nano-fibrillated cellulose --- silver nanoparticles --- acid hydrolysis --- heavy metal sorption --- anaerobic digestion --- biofuel --- biomass --- cotton-based waste --- closed-loop --- lignocellulose --- textile waste --- cellulose nanofibre --- green materials --- biopolymers --- environmental --- recycled newspaper --- composite laminates --- water resistance --- high strength --- cotton wastes --- textile --- nanomaterials --- cellulose nanocrystal --- extraction methods --- environmental application --- regenerated cellulose fiber --- Au NP --- controllably assembled --- SERS --- dimetridazole --- cellulose hydrogel --- thermo-responsive --- sustained release --- silver sulfadiazine --- burn wound --- polymer --- carpet fiber --- direct analysis in real time --- time of flight --- mass spectrometry --- function switching --- oleamide --- cellulose nanofibers isolation --- carpet wastes --- supercritical carbon dioxide --- enhanced properties --- recovery of cellulose --- textile fibers --- eco-efficiency --- circular economy --- textile industry