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Antibacterial agents. --- Anti-bacterial agents --- Antibacterials --- Bacteriocidal agents --- Bacteriostatic agents --- Anti-infective agents --- Bacterial diseases --- Bactericides --- Chemotherapy
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There is some talk about an antibiotic Armageddon due to quickly developing resistance towards commercially available antibiotics. For the most part, the classical antibiotic pipeline has dried up, and antibiotic resistance to any new drugs quickly develops. It is here that metal-based antimicrobials can step forward as possible solutions in this antimicrobial resistance era. The biological targets of metal atoms are more diverse, thus making it more difficult for bacteria to develop resistance compared with classical antibiotics. The metal silver has been used since antiquity for wound healing and water purification. At present, it is the most prevalent antimicrobial metal used in healthcare, industry, and consumer products. Silver is being used in the form of ionic salt, colloids, or in specific nanomaterials, and as described in this book, it can be applied as mixtures with other antimicrobials or coating composites. The different formulations are explored for their efficacy against a variety of problems related to agricultural and medical infections. Whilst by no means exhaustive, this book nicely highlights the present directions in silver-based antimicrobial research and antimicrobial formulation development. The chapters have been organized from a general introductory review to approaches of mixing other antimicrobials and materials to enhance silver performance. This is followed by synthetic approaches. First are biogenic (sometimes called green or eco-friendly) approaches, followed by advanced physical–chemical synthetic approaches. The book ends with an overview of applications through a review of patents over the past 10 years.
nanotechnology --- environmentally-friendly --- pesticide --- antimicrobial --- zebrafish --- antimicrobial activity --- biofilm --- urinary infection --- silver nanoparticles --- bacterial resistance --- silver --- nanoparticles --- Candida albicans --- Staphylococcus aureus --- herbal medicine --- Punicaceae --- calcium glycerophosphate --- Streptococcus mutans --- antibacterial --- titania --- mesoporous --- macroporous --- surface functionalization --- camphor derivatives --- silver camphorimine complexes --- laser ablation synthesis in solution --- nano-antimicrobials --- food packaging --- green synthesis --- microwave irradiation --- Juglans regia --- antibacterial activity --- biological synthesis --- multidrug-resistant bacteria --- antifungal --- chitosan oligomers --- composites --- deep eutectic solvents --- phenolic compounds --- Phytophthora cinnamomi --- root rot --- non-equilibrium plasma --- antibacterial coatings --- plasma polymers --- nanocomposites --- antibiotics --- adjuvant --- combinatorial --- metal --- ROS --- antibacterial effect --- laser irradiation --- metal-vapour method --- TEM --- XPS --- EXAFS --- microbiomes --- silane-based coating --- Marinomonas --- Anaerospora --- antibiotic resistance --- medicinal silver --- patents --- synergism --- Cephradine --- Vildagliptin --- n/a
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Textiles are commonly constituted of natural and synthetic fibers for normal applications. To impart functional or aesthetic effects on the textiles, the surface characteristics in the fiber play an important role. Therefore, surface treatment or modification is a possible way to provide value-added properties to textiles. The textile material/fiber surface can be treated or modified physically and/or chemically to achieve different desired effects. This book will provide an open forum to draw the attention of academic researchers and industrial experts to looking into different aspects of the surface treatment of textiles.
Technology: general issues --- healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness --- healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness
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Textiles are commonly constituted of natural and synthetic fibers for normal applications. To impart functional or aesthetic effects on the textiles, the surface characteristics in the fiber play an important role. Therefore, surface treatment or modification is a possible way to provide value-added properties to textiles. The textile material/fiber surface can be treated or modified physically and/or chemically to achieve different desired effects. This book will provide an open forum to draw the attention of academic researchers and industrial experts to looking into different aspects of the surface treatment of textiles.
Technology: general issues --- healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness --- n/a
Choose an application
Textiles are commonly constituted of natural and synthetic fibers for normal applications. To impart functional or aesthetic effects on the textiles, the surface characteristics in the fiber play an important role. Therefore, surface treatment or modification is a possible way to provide value-added properties to textiles. The textile material/fiber surface can be treated or modified physically and/or chemically to achieve different desired effects. This book will provide an open forum to draw the attention of academic researchers and industrial experts to looking into different aspects of the surface treatment of textiles.
healthcare textile --- antibacterial property --- hand feel value --- washing durability --- polytetrafluoroethylene --- carbon material --- aramid fiber --- material modification --- surface engineering --- ion implantation --- MEVVA --- antibacterial --- corrosion --- UV protection --- graphene --- polyester --- thermal conductivity --- heat transmission --- near-infrared --- reflectance --- absorbance --- Moringa oleifera --- Aegle marmelos --- organic cotton --- nano-emulsion --- antimicrobial resistance --- antifungal efficacy --- wash fastness --- n/a
Choose an application
There is some talk about an antibiotic Armageddon due to quickly developing resistance towards commercially available antibiotics. For the most part, the classical antibiotic pipeline has dried up, and antibiotic resistance to any new drugs quickly develops. It is here that metal-based antimicrobials can step forward as possible solutions in this antimicrobial resistance era. The biological targets of metal atoms are more diverse, thus making it more difficult for bacteria to develop resistance compared with classical antibiotics. The metal silver has been used since antiquity for wound healing and water purification. At present, it is the most prevalent antimicrobial metal used in healthcare, industry, and consumer products. Silver is being used in the form of ionic salt, colloids, or in specific nanomaterials, and as described in this book, it can be applied as mixtures with other antimicrobials or coating composites. The different formulations are explored for their efficacy against a variety of problems related to agricultural and medical infections. Whilst by no means exhaustive, this book nicely highlights the present directions in silver-based antimicrobial research and antimicrobial formulation development. The chapters have been organized from a general introductory review to approaches of mixing other antimicrobials and materials to enhance silver performance. This is followed by synthetic approaches. First are biogenic (sometimes called green or eco-friendly) approaches, followed by advanced physical–chemical synthetic approaches. The book ends with an overview of applications through a review of patents over the past 10 years.
Research & information: general --- Biology, life sciences --- nanotechnology --- environmentally-friendly --- pesticide --- antimicrobial --- zebrafish --- antimicrobial activity --- biofilm --- urinary infection --- silver nanoparticles --- bacterial resistance --- silver --- nanoparticles --- Candida albicans --- Staphylococcus aureus --- herbal medicine --- Punicaceae --- calcium glycerophosphate --- Streptococcus mutans --- antibacterial --- titania --- mesoporous --- macroporous --- surface functionalization --- camphor derivatives --- silver camphorimine complexes --- laser ablation synthesis in solution --- nano-antimicrobials --- food packaging --- green synthesis --- microwave irradiation --- Juglans regia --- antibacterial activity --- biological synthesis --- multidrug-resistant bacteria --- antifungal --- chitosan oligomers --- composites --- deep eutectic solvents --- phenolic compounds --- Phytophthora cinnamomi --- root rot --- non-equilibrium plasma --- antibacterial coatings --- plasma polymers --- nanocomposites --- antibiotics --- adjuvant --- combinatorial --- metal --- ROS --- antibacterial effect --- laser irradiation --- metal-vapour method --- TEM --- XPS --- EXAFS --- microbiomes --- silane-based coating --- Marinomonas --- Anaerospora --- antibiotic resistance --- medicinal silver --- patents --- synergism --- Cephradine --- Vildagliptin --- nanotechnology --- environmentally-friendly --- pesticide --- antimicrobial --- zebrafish --- antimicrobial activity --- biofilm --- urinary infection --- silver nanoparticles --- bacterial resistance --- silver --- nanoparticles --- Candida albicans --- Staphylococcus aureus --- herbal medicine --- Punicaceae --- calcium glycerophosphate --- Streptococcus mutans --- antibacterial --- titania --- mesoporous --- macroporous --- surface functionalization --- camphor derivatives --- silver camphorimine complexes --- laser ablation synthesis in solution --- nano-antimicrobials --- food packaging --- green synthesis --- microwave irradiation --- Juglans regia --- antibacterial activity --- biological synthesis --- multidrug-resistant bacteria --- antifungal --- chitosan oligomers --- composites --- deep eutectic solvents --- phenolic compounds --- Phytophthora cinnamomi --- root rot --- non-equilibrium plasma --- antibacterial coatings --- plasma polymers --- nanocomposites --- antibiotics --- adjuvant --- combinatorial --- metal --- ROS --- antibacterial effect --- laser irradiation --- metal-vapour method --- TEM --- XPS --- EXAFS --- microbiomes --- silane-based coating --- Marinomonas --- Anaerospora --- antibiotic resistance --- medicinal silver --- patents --- synergism --- Cephradine --- Vildagliptin
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Based on a fundamental understanding of the interaction between bacteria and nanomaterials, this book highlights the latest research on the antimicrobial properties of nanomaterials and provides an invaluable blueprint for improving the antimicrobial performance of devices and products. This book introduces the reader to the progress being made in the field, followed by an outline of applications in different areas. Various methods and techniques of synthesis and characterization are detailed. The content provides insight into the ongoing research, current trends, and technical challenges in this rapidly progressing field. Therefore, this book is highly suitable for materials scientists, engineers, biologists, and technologists.
boron nitride --- chitosan --- polyhydroxyalkanoate --- nanocomposite --- biocompatible --- antibacterial --- titanate nanotubes --- TNT --- Ag --- Escherichia coli --- Staphylococcus epidermidis --- antimicrobial --- layer-by-layer --- coatings --- Nafion --- multilayers --- essential oil --- encapsulation --- bovine casein --- antifungal activity --- fruit preservation --- antibacterial activity --- photocatalyst --- titania --- nanomaterial --- doping --- Staphylococcus aureus --- reactive oxygen species --- silver nanoparticle --- visible light --- nanoscale additive manufacturing --- surface nanopatterns --- antibacterial effects --- controlled disorder --- interspace --- zinc oxide --- electrochemical synthesis --- BAC --- PDDA --- nanorod --- XPS --- TEM --- B. subtilis --- silver nanoparticles --- carboxymethyl-cellulose --- composite --- cytotoxicity --- nanoparticle --- drug delivery system --- diabetes mellitus --- wound healing --- diabetic foot ulcer --- pathophysiology --- hybrid nanostructures --- nanovesicles --- nanoparticles --- copper --- antibiofilm --- metal nanoparticles --- fiber material --- bioluminescent cells --- n/a
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Evolved in a huge number of different materials and structures, nature represents a great inspiration for scientists and researchers, which continuously focuses attention on the development of novel approaches and functional biomaterials to mimic the complex architectures and functions of the human body. Bioinspired engineering is considered today as a valuable tool for the design of clinically relevant materials and structures for regenerative sciences and, in this direction, many progresses have been recently made by the scientific research in the biomedical field. This book aims at collecting some recent works addressed to the definition of novel bioinspired approaches in bioengineering and biotechnology, presenting interesting scientific results and a comprehensive overview of attracting materials in research papers and review articles.
Technology: general issues --- biomaterials --- bone tissue --- biomedical applications --- multi-spiked connecting scaffold (MSC-Scaffold) --- biomimetic scaffold --- CaP biomineral coating --- combined electrochemical deposition --- collagen --- hydroxyapatite --- biomimetic material --- scaffold --- bone regeneration --- biocomposite --- bioproduct --- biomaterial --- fibrin --- stem cell --- silk --- fibroin --- wound healing --- antibacterial
Choose an application
Evolved in a huge number of different materials and structures, nature represents a great inspiration for scientists and researchers, which continuously focuses attention on the development of novel approaches and functional biomaterials to mimic the complex architectures and functions of the human body. Bioinspired engineering is considered today as a valuable tool for the design of clinically relevant materials and structures for regenerative sciences and, in this direction, many progresses have been recently made by the scientific research in the biomedical field. This book aims at collecting some recent works addressed to the definition of novel bioinspired approaches in bioengineering and biotechnology, presenting interesting scientific results and a comprehensive overview of attracting materials in research papers and review articles.
biomaterials --- bone tissue --- biomedical applications --- multi-spiked connecting scaffold (MSC-Scaffold) --- biomimetic scaffold --- CaP biomineral coating --- combined electrochemical deposition --- collagen --- hydroxyapatite --- biomimetic material --- scaffold --- bone regeneration --- biocomposite --- bioproduct --- biomaterial --- fibrin --- stem cell --- silk --- fibroin --- wound healing --- antibacterial
Choose an application
Evolved in a huge number of different materials and structures, nature represents a great inspiration for scientists and researchers, which continuously focuses attention on the development of novel approaches and functional biomaterials to mimic the complex architectures and functions of the human body. Bioinspired engineering is considered today as a valuable tool for the design of clinically relevant materials and structures for regenerative sciences and, in this direction, many progresses have been recently made by the scientific research in the biomedical field. This book aims at collecting some recent works addressed to the definition of novel bioinspired approaches in bioengineering and biotechnology, presenting interesting scientific results and a comprehensive overview of attracting materials in research papers and review articles.
Technology: general issues --- biomaterials --- bone tissue --- biomedical applications --- multi-spiked connecting scaffold (MSC-Scaffold) --- biomimetic scaffold --- CaP biomineral coating --- combined electrochemical deposition --- collagen --- hydroxyapatite --- biomimetic material --- scaffold --- bone regeneration --- biocomposite --- bioproduct --- biomaterial --- fibrin --- stem cell --- silk --- fibroin --- wound healing --- antibacterial --- biomaterials --- bone tissue --- biomedical applications --- multi-spiked connecting scaffold (MSC-Scaffold) --- biomimetic scaffold --- CaP biomineral coating --- combined electrochemical deposition --- collagen --- hydroxyapatite --- biomimetic material --- scaffold --- bone regeneration --- biocomposite --- bioproduct --- biomaterial --- fibrin --- stem cell --- silk --- fibroin --- wound healing --- antibacterial
Listing 1 - 10 of 120 | << page >> |
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