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Contributions by scientists working in international laboratories provide the novice researcher with synthetic data and high-technology applications of leuco dyes. Covering leuco dye classes that exhibit reasonable stability, the book discusses photochromic materials that have wide-ranging applications in memory technology, leuco dyes for color photography, and a special class of dyes formulated by reduction instead of the oxidation process.
Vat dyes. --- Chemistry, Physical organic. --- Physical Chemistry. --- Physical chemistry. --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Leuco dyes --- Triphenylmethane dyes --- Dyes and dyeing
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This book is motivated by our passion to compile recent research on antimicrobial surfaces. We aimed to assemble research papers on the preparation of new materials, antimicrobial testing using different pathogens (bacteria, fungi, and viruses), and the relationship between the coating nanostructure and its reactivity towards the studied pathogen(s). We believe that a good antimicrobial coating should by characterized by (i) a fast activity towards the pathogen, (ii) sustainable activity based on the stability of the coating, and (iii) the lowest possible toxicity for humans and reduced risks for the environment. Striking a compromise between these different challenges is difficult and requires more research.
Research & information: general --- Technology: general issues --- active packaging --- chitosan --- methylcellulose --- natamycin --- antimicrobial action --- quaternary ammonium groups --- acrylic acid --- glycidyl methacrylate --- crosslinking reaction --- coating --- edible films --- edible coatings --- antimicrobial agents --- fresh fish --- spoilage --- shelf-life --- black anther disease --- orchid cut flower --- silver nanoparticles --- antifouling efficacy --- flow-through --- triangular box --- Amphibalanus amphitrite --- cuprous oxide --- dynamic aging --- repellant activity --- raft experiment --- bioassay --- biofouling of ships' hull --- polypropylene --- hernia meshes --- antibacterial --- drug release --- polydopamine --- antimicrobial --- citric acid --- cross-linked --- cold plasma --- antimicrobial activity --- brilliant green --- crystal violet --- demethylation --- lignin --- polyurethane coatings --- triphenylmethane dyes --- 3D printing --- catheters --- dialysis --- extrusion --- infections --- manufacturing --- infection --- coatings --- silver --- nanomaterials --- plasma deposition --- titanium-based thin films --- copper --- magnetron sputtering --- super-elastic coatings --- E. coli inactivation --- active packaging --- chitosan --- methylcellulose --- natamycin --- antimicrobial action --- quaternary ammonium groups --- acrylic acid --- glycidyl methacrylate --- crosslinking reaction --- coating --- edible films --- edible coatings --- antimicrobial agents --- fresh fish --- spoilage --- shelf-life --- black anther disease --- orchid cut flower --- silver nanoparticles --- antifouling efficacy --- flow-through --- triangular box --- Amphibalanus amphitrite --- cuprous oxide --- dynamic aging --- repellant activity --- raft experiment --- bioassay --- biofouling of ships' hull --- polypropylene --- hernia meshes --- antibacterial --- drug release --- polydopamine --- antimicrobial --- citric acid --- cross-linked --- cold plasma --- antimicrobial activity --- brilliant green --- crystal violet --- demethylation --- lignin --- polyurethane coatings --- triphenylmethane dyes --- 3D printing --- catheters --- dialysis --- extrusion --- infections --- manufacturing --- infection --- coatings --- silver --- nanomaterials --- plasma deposition --- titanium-based thin films --- copper --- magnetron sputtering --- super-elastic coatings --- E. coli inactivation
Choose an application
This book is motivated by our passion to compile recent research on antimicrobial surfaces. We aimed to assemble research papers on the preparation of new materials, antimicrobial testing using different pathogens (bacteria, fungi, and viruses), and the relationship between the coating nanostructure and its reactivity towards the studied pathogen(s). We believe that a good antimicrobial coating should by characterized by (i) a fast activity towards the pathogen, (ii) sustainable activity based on the stability of the coating, and (iii) the lowest possible toxicity for humans and reduced risks for the environment. Striking a compromise between these different challenges is difficult and requires more research.
active packaging --- chitosan --- methylcellulose --- natamycin --- antimicrobial action --- quaternary ammonium groups --- acrylic acid --- glycidyl methacrylate --- crosslinking reaction --- coating --- edible films --- edible coatings --- antimicrobial agents --- fresh fish --- spoilage --- shelf-life --- black anther disease --- orchid cut flower --- silver nanoparticles --- antifouling efficacy --- flow-through --- triangular box --- Amphibalanus amphitrite --- cuprous oxide --- dynamic aging --- repellant activity --- raft experiment --- bioassay --- biofouling of ships’ hull --- polypropylene --- hernia meshes --- antibacterial --- drug release --- polydopamine --- antimicrobial --- citric acid --- cross-linked --- cold plasma --- antimicrobial activity --- brilliant green --- crystal violet --- demethylation --- lignin --- polyurethane coatings --- triphenylmethane dyes --- 3D printing --- catheters --- dialysis --- extrusion --- infections --- manufacturing --- infection --- coatings --- silver --- nanomaterials --- plasma deposition --- titanium-based thin films --- copper --- magnetron sputtering --- super-elastic coatings --- E. coli inactivation --- n/a --- biofouling of ships' hull
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