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The interaction of bacteria with biomaterials’ surfaces has critical clinical implications on the development and progression of biofilm-related diseases. In this book "Bacterial Interactions with Dental and Medical Materials", encouraging findings on tissue-contacting biomaterials to control biofilms, enhanced understanding of key mechanisms, and clinical perspectives are discussed toward improving healthcare.

polymer --- dental --- antibacterial --- antifouling --- hydroxyapatite --- star-shaped --- hydrophobicity --- acrylic acid --- oral --- composition --- antimicrobial effect --- biofilms --- cytotoxicity --- dental resins --- physicochemical properties --- mechanical properties --- quaternary ammonium methacrylates --- dental materials --- dentistry --- adhesives --- light-curing of dental adhesives --- composite resins --- methylmethacrylate --- oxides --- cerium --- polymers --- dentine bonding agents --- anti-bacterial agents --- dental caries --- biocompatible materials --- quaternary ammonium compounds --- antimicrobial --- ceramic --- coating --- silicon carbide --- fluoride(s) --- biofilm(s) --- Streptococcus mutans --- bioreactor(s) --- enamel --- composite materials --- biomaterials --- nanostructured materials --- chronic wounds --- infection --- chick embryo CAM --- ex ovo --- bioactive desensitizer --- hypersensitivity --- SEM --- nanoparticle --- nanohydroxyapatite --- microshear bond strength --- phosphoric acid --- self-etch --- porous bioceramics --- wollastonite --- sol-gel technology --- spark plasma sintering–reactive synthesis --- bacterial test --- surface modification --- coatings --- implant --- biofilm --- silver --- copper --- polylysine --- dental composites --- protein repellent --- restorations --- zwitterionic polymers --- dental composite --- antibiofilm --- dental nanocomposite --- calcium fluoride nanoparticles --- remineralization --- oral biofilm --- electrospinning --- nano-hydroxyapatite --- toxicity --- bone regeneration --- white spot lesions --- orthodontic --- n/a --- spark plasma sintering-reactive synthesis

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This book focuses on recent advances in plasma technology and its application to metals, alloys, and related materials. Surface modifications, material syntheses, cutting and surface coatings are performed using low-pressure plasma or atmospheric-pressure plasma. The contributions of this book include the discussion of a wide scope of plasma technologies applied to materials. Plasma is a versatile tool that can be applied in many types of material processing. New material processing applications of plasmas and new plasma technologies are being developed rapidly. We hope that this book can contribute new knowledge to the plasma material research society.

cathodic plasma electrolysis deposition --- Al2O3 coating --- oxidation --- solution surface tension --- nitrogen plasma --- Ga droplet --- GaN nanodot --- transmission electron microscopy --- wurtzite --- Zinc-blende --- plasma cutting --- cut heat affected zone --- mini-tensile test --- steel plate --- residual stress --- atmospheric pressure plasma jet --- platinum --- tin oxide --- dye-sensitized solar cells --- chloroplatinic acid --- tin chloride --- self-lubricating --- composite coating --- titanium --- plasma electrolytic oxidation (PEO) --- polytetrafluoroethylene (PTFE) --- plasma nitriding --- atmospheric-pressure plasma --- nitrogen dose amount --- hydrogen fraction --- void --- Ti6Al4V lattice structure --- Ag-doped TiO2 anatase --- spark plasma sintering --- selective laser melting --- additive manufacturing --- antibacterial and photoactivity applications --- aluminum --- surface --- plasma --- nitrogen --- postdischarge --- atmospheric pressure --- wettability --- organic-inorganic halide perovskite --- air plasma --- plasma treatment --- optoelectronic properties --- morphology --- n/a

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The Special Issue contains ten research papers, three of which review papers. It is a miscellaneous composition encompassing several applications where metal oxides play a key role. Some papers also give insights into novel synthesis methods and processes aiming to reduce negative environmental impacts and increase materials and process efficiency, thus also covering a broader concern of sustainability issues. The topics covered in this issues are: transparent conductive oxides, ceramic composites for tool applications, oxides nanoparticles for A-TIG welding, critical raw materials saving, metallurgical waste treatment, oxides for high temperature applications, nanostructured oxides and composites for gas sensing and desulfuration, and metal oxides sorbents for CO2 capture.

History of engineering & technology --- indium tin oxide (ITO) --- invar metal substrate --- curved perovskite solar cells --- flexibility --- reflectance --- electrode --- RHF --- deposition --- KCl --- ZnFe2O4 --- cohering mechanism --- oxide coating --- nanoparticles --- TIG welding --- penetration depth --- hard facing --- cobalt alloys --- wear --- nano-particle coating --- A-TIG welding --- particle size --- metal flow --- alumina-zirconia composites --- TiC --- TiN --- spark plasma sintering --- wear resistance --- indentation fracture toughness --- X-ray diffraction --- WO3 --- ionic liquids --- gas sensor --- pollutant gases --- desulfurization --- In doped ZnO --- bibliometric analysis --- thin films --- metal oxides --- zirconia --- rare earth zirconates --- thermal barrier coatings --- microstructure characterization --- thermal shock resistance --- CO2 capture --- calcium looping --- nanometric CaZrO3 particles --- indium tin oxide (ITO) --- invar metal substrate --- curved perovskite solar cells --- flexibility --- reflectance --- electrode --- RHF --- deposition --- KCl --- ZnFe2O4 --- cohering mechanism --- oxide coating --- nanoparticles --- TIG welding --- penetration depth --- hard facing --- cobalt alloys --- wear --- nano-particle coating --- A-TIG welding --- particle size --- metal flow --- alumina-zirconia composites --- TiC --- TiN --- spark plasma sintering --- wear resistance --- indentation fracture toughness --- X-ray diffraction --- WO3 --- ionic liquids --- gas sensor --- pollutant gases --- desulfurization --- In doped ZnO --- bibliometric analysis --- thin films --- metal oxides --- zirconia --- rare earth zirconates --- thermal barrier coatings --- microstructure characterization --- thermal shock resistance --- CO2 capture --- calcium looping --- nanometric CaZrO3 particles

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Nano- and microdispersed systems can be defined as dispersions of the nano- and microparticles (droplets, bubbles) of one material within a continuous phase of another material (gas, liquid, solid). Such systems are very widespread in nature. The most common examples include soils, aerosols, minerals, and various natural colloids. Nano- and microdispersed systems are also the subject of active research and represent a techno-economic sector with full expansion in many application domains. Nano- and microdispersed systems have gained prominence in technological advancements due to their diverse physicochemical and mechanical properties, including wettability, dispersion stability, electrical and thermal conductivity, and catalytic activity, resulting in enhanced performance over their counterparts with a particle size above 1 µm. Such systems are of interest to various research areas, including the development of new polymers and ceramic composites, sensors, biomaterials, energy conversion devices, wastewater treatment strategies, and many other applications. The present Special Issue of Processes will include recent enhancements in the synthesis and application of various types of nano- and microdispersed systems and will help to expand scientific cooperation in this important field of research.

Technology: general issues --- History of engineering & technology --- sorption --- heavy metals --- radioactive metals --- potassium titanate --- ion exchange --- natural rubber --- maleated natural rubber --- maleic anhydride --- Halloysite Nanotubes --- silver nanodecahedron --- SERS --- photochemical synthesis --- LEDs --- spark plasma sintering --- nanomodification --- mechanical processing --- densification --- mechanical properties --- low-carbon steels of the ferritic class --- nanoscale phase precipitates --- strength characteristics --- steel composition --- hot rolling --- structure --- 5-hydroxymethylfurfural --- 2,5-diformylfuran --- TiO2 --- electrochemical synthesis --- pulse alternating current --- CVD process --- doping --- single-crystal diamond --- boron --- triethyl borate --- thin films --- boron-doped diamond --- polymer composite --- sorbent --- wastewater --- polyvinyl butyral --- potassium polytitanate --- direct ethanol fuel cell --- platinum-based catalyst --- electrocatalysis --- nanoparticles --- platinum catalyst --- synthesis method --- polyol process --- electrochemical dispersion --- alternating current --- ethanol electrooxidation --- fuel cell --- carbon quantum dots --- polarization fluorescent analysis --- fluorescence properties --- copper cation --- water samples --- sorption --- heavy metals --- radioactive metals --- potassium titanate --- ion exchange --- natural rubber --- maleated natural rubber --- maleic anhydride --- Halloysite Nanotubes --- silver nanodecahedron --- SERS --- photochemical synthesis --- LEDs --- spark plasma sintering --- nanomodification --- mechanical processing --- densification --- mechanical properties --- low-carbon steels of the ferritic class --- nanoscale phase precipitates --- strength characteristics --- steel composition --- hot rolling --- structure --- 5-hydroxymethylfurfural --- 2,5-diformylfuran --- TiO2 --- electrochemical synthesis --- pulse alternating current --- CVD process --- doping --- single-crystal diamond --- boron --- triethyl borate --- thin films --- boron-doped diamond --- polymer composite --- sorbent --- wastewater --- polyvinyl butyral --- potassium polytitanate --- direct ethanol fuel cell --- platinum-based catalyst --- electrocatalysis --- nanoparticles --- platinum catalyst --- synthesis method --- polyol process --- electrochemical dispersion --- alternating current --- ethanol electrooxidation --- fuel cell --- carbon quantum dots --- polarization fluorescent analysis --- fluorescence properties --- copper cation --- water samples

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This book is a collection of several unique articles on the current state of research on complex concentrated alloys, as well as their compelling future opportunities in wide ranging applications. Complex concentrated alloys consist of multiple principal elements and represent a new paradigm in structural alloy design. They show a range of exceptional properties that are unachievable in conventional alloys, including high strength–ductility combination, resistance to oxidation, corrosion/wear resistance, and excellent high-temperature properties. The research articles, reviews, and perspectives are intended to provide a wholistic view of this multidisciplinary subject of interest to scientists and engineers.

History of engineering & technology --- high-entropy alloy --- laser cladding --- microstructure --- slurry erosion --- Nb/SiC composite material --- hot pressing sintering --- mechanical property --- corrosion --- surface degradation --- wear --- high entropy alloys --- complex concentrated alloys --- potentiodynamic polarization --- erosion-corrosion --- slurry-erosion --- oxidation wear --- highly wear resistant coatings --- multi-principal element alloys --- computational models --- first-principles calculations --- molecular dynamics --- phases --- properties --- dislocation nucleation --- activation volume --- activation energy --- nano-indentation --- high/medium entropy alloys --- spark plasma sintering --- pressure --- mechanical properties --- high-entropy --- high pressure --- high pressure torsion --- diamond anvil cells --- CoCrFeMnNi high entropy alloys --- additive manufacturing --- corrosion behavior --- non-equilibrium microstructure --- micro-pores --- high-entropy alloys --- corrosion resistance --- wear resistance --- serrated flow --- thermal coarsening --- actuators --- phase transformation --- nanoporous metals and alloys --- AlCoCrFeNi2.1 --- CCA --- HEA --- aging --- precipitates --- tribology --- creep --- stress exponent --- data analysis --- high-entropy alloy --- laser cladding --- microstructure --- slurry erosion --- Nb/SiC composite material --- hot pressing sintering --- mechanical property --- corrosion --- surface degradation --- wear --- high entropy alloys --- complex concentrated alloys --- potentiodynamic polarization --- erosion-corrosion --- slurry-erosion --- oxidation wear --- highly wear resistant coatings --- multi-principal element alloys --- computational models --- first-principles calculations --- molecular dynamics --- phases --- properties --- dislocation nucleation --- activation volume --- activation energy --- nano-indentation --- high/medium entropy alloys --- spark plasma sintering --- pressure --- mechanical properties --- high-entropy --- high pressure --- high pressure torsion --- diamond anvil cells --- CoCrFeMnNi high entropy alloys --- additive manufacturing --- corrosion behavior --- non-equilibrium microstructure --- micro-pores --- high-entropy alloys --- corrosion resistance --- wear resistance --- serrated flow --- thermal coarsening --- actuators --- phase transformation --- nanoporous metals and alloys --- AlCoCrFeNi2.1 --- CCA --- HEA --- aging --- precipitates --- tribology --- creep --- stress exponent --- data analysis