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Chemical cleaning. --- Aerospace industry. --- Air pollution. --- Distillation. --- Solvents.

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Chlorofluorocarbons. --- Solvents. --- Chemical cleaning. --- Chemical tests. --- Oxygen supply equipment.

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Materials of extreme wetting properties have received significant attention, as they offer new perspectives providing numerous potential applications. Water- and oil-repellent surfaces can be used, for instance, in the automobile, microelectronics, textile and biomedical industries; in the protection and preservation of constructions, buildings and cultural heritage; and in several other applications relevant to self-cleaning, biocide treatments, oil–water separation and anti-corrosion, just to name a few. The papers included in this book present innovative production methods of advanced materials with extreme wetting properties that are designed to serve some of the abovementioned applications. Moreover, the papers explore the scientific principles behind these advanced materials and discuss their applications to different areas of coating technology.

Research & information: general --- robust superhydrophobic surface --- surface assembly mechanism --- surface disintegration mechanism --- superhydrophobic --- Cu2O --- oil-water separation --- hydrophobic treatments --- oleophobicity --- nano-particles --- stone protection --- anti-graffiti coatings --- chemical cleaning --- acrylic-based paints --- felt-tip markers --- water repellency --- calcium hydroxide --- siloxane --- marble --- cultural heritage --- conservation --- sodium methyl silicone --- earth site --- silt --- the height of capillary rise --- microscopic mechanism analysis --- XRD --- XRF --- SEM --- MIP --- plasma deposition --- organosilicon thin layers --- morphology analysis --- surface molecular structure --- goose down --- wettability --- fungus resistance --- robust superhydrophobic surface --- surface assembly mechanism --- surface disintegration mechanism --- superhydrophobic --- Cu2O --- oil-water separation --- hydrophobic treatments --- oleophobicity --- nano-particles --- stone protection --- anti-graffiti coatings --- chemical cleaning --- acrylic-based paints --- felt-tip markers --- water repellency --- calcium hydroxide --- siloxane --- marble --- cultural heritage --- conservation --- sodium methyl silicone --- earth site --- silt --- the height of capillary rise --- microscopic mechanism analysis --- XRD --- XRF --- SEM --- MIP --- plasma deposition --- organosilicon thin layers --- morphology analysis --- surface molecular structure --- goose down --- wettability --- fungus resistance

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Materials of extreme wetting properties have received significant attention, as they offer new perspectives providing numerous potential applications. Water- and oil-repellent surfaces can be used, for instance, in the automobile, microelectronics, textile and biomedical industries; in the protection and preservation of constructions, buildings and cultural heritage; and in several other applications relevant to self-cleaning, biocide treatments, oil–water separation and anti-corrosion, just to name a few. The papers included in this book present innovative production methods of advanced materials with extreme wetting properties that are designed to serve some of the abovementioned applications. Moreover, the papers explore the scientific principles behind these advanced materials and discuss their applications to different areas of coating technology.

robust superhydrophobic surface --- surface assembly mechanism --- surface disintegration mechanism --- superhydrophobic --- Cu2O --- oil–water separation --- hydrophobic treatments --- oleophobicity --- nano-particles --- stone protection --- anti-graffiti coatings --- chemical cleaning --- acrylic-based paints --- felt-tip markers --- water repellency --- calcium hydroxide --- siloxane --- marble --- cultural heritage --- conservation --- sodium methyl silicone --- earth site --- silt --- the height of capillary rise --- microscopic mechanism analysis --- XRD --- XRF --- SEM --- MIP --- plasma deposition --- organosilicon thin layers --- morphology analysis --- surface molecular structure --- goose down --- wettability --- fungus resistance --- n/a --- oil-water separation

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Increases in population, booming economy, rapid urbanization and the rise of living standard have exponentially accelerated waste production. Currently, 2 billion tons per year of municipal solid waste is produced worldwide and about 33% of this amount remains uncollected by different municipalities.. However, the entire waste production process concerns different streams and origins other than municipal solid waste, including industrial, agricultural, construction and demolitions waste; and hazardous, medical and electronic waste. Published papers, as a whole, concern different waste materials such as the recovery of different building materials, the treatment of waste deriving from electrical and electronic equipment, the utilization of stainless-steel slags, agricultural and domestic waste and plastics. In conclusion, the works demonstrate scientific and technological relevance in terms of the topics dealt with, but the problems addressed in this Special Issue proceed beyond the solution that the scientific community is able to propose. In fact, our industrial system, at the end of its cycle of production and consumption, has not developed the capacity to absorb and reuse waste and byproducts. We have not yet managed to adopt a circular model of production capable of preserving resources for present and future generations.

Technology: general issues --- pyrolysis --- biochars --- agricultural waste --- biomass --- recycled aggregates --- self-compacting concrete --- design parameters --- fresh concrete properties --- mix design --- printed circuit boards --- spent mobile phones --- thiourea --- precious metals --- hydrometallurgy --- factorial plans --- plastic waste --- carbon nanotubes --- plastic oil --- fuels --- monomer recovery --- olefins --- reusing of wastes --- secondary lime --- neutralization --- reduce landfill --- acidic wastewater treatment --- sustainable production --- recycling --- lathe waste --- CNC machining --- sustainable development --- mix modification --- workability --- mechanical properties --- thermal properties --- bottom ash --- dry treatment --- incineration --- municipal solid waste --- potential toxic elements --- salts --- sound absorber --- cigarette butts --- sustainable material --- chemical cleaning --- stainless steel slag --- upscale trials --- mixing time --- absorption --- circular economy --- oil spill --- refrigerator --- WEEE --- waste --- value-added materials --- calcium oxide --- eggshell --- incense sticks --- adsorption --- wastewater --- pyrolysis --- biochars --- agricultural waste --- biomass --- recycled aggregates --- self-compacting concrete --- design parameters --- fresh concrete properties --- mix design --- printed circuit boards --- spent mobile phones --- thiourea --- precious metals --- hydrometallurgy --- factorial plans --- plastic waste --- carbon nanotubes --- plastic oil --- fuels --- monomer recovery --- olefins --- reusing of wastes --- secondary lime --- neutralization --- reduce landfill --- acidic wastewater treatment --- sustainable production --- recycling --- lathe waste --- CNC machining --- sustainable development --- mix modification --- workability --- mechanical properties --- thermal properties --- bottom ash --- dry treatment --- incineration --- municipal solid waste --- potential toxic elements --- salts --- sound absorber --- cigarette butts --- sustainable material --- chemical cleaning --- stainless steel slag --- upscale trials --- mixing time --- absorption --- circular economy --- oil spill --- refrigerator --- WEEE --- waste --- value-added materials --- calcium oxide --- eggshell --- incense sticks --- adsorption --- wastewater