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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 conversion and storage of renewable energy sources is key to the transition from a fossil-fuel-based economy to a low-carbon society. Many new game-changing materials have already impacted our lives and contributed to a reduction in carbon dioxide emissions, such as high-efficiency photovoltaic cells, blue light-emitting diodes, and cathodes for Li-ion batteries. However, new breakthroughs in materials science and technology are required to boost the clean energy transition. All success stories in materials science are built upon a tailored control of the interconnected processes that take place at the nanoscale, such as charge excitation, charge transport and recombination, ionic diffusion, intercalation, and the interfacial transfer of matter and charge. Nanostructured materials, thanks to their ultra-small building blocks and the high interface-to-volume ratio, offer a rich toolbox to scientists that aspire to improve the energy conversion efficiency or the power and energy density of a material. Furthermore, new phenomena arise in nanoparticles, such as surface plasmon resonance, superparamegntism, and exciton confinement. The ten articles published in this Special Issue showcase the different applications of nanomaterials in the field of energy storage and conversion, including electrodes for Li-ion batteries and beyond, photovoltaic materials, pyroelectric energy harvesting, and (photo)catalytic processes.

Research & information: general --- Physics --- nanoparticle --- nanoalloy --- catalyst --- CO2 reduction --- hydrocarbon --- synthetic fuel --- iron --- cobalt --- perovskite solar cell --- hole transport layer --- CuCrO2 nanoparticles --- thermal stability --- light stability --- aluminum ion batteries --- reduced graphene oxide --- tin dioxide --- 3D electrode materials --- mechanical properties --- TiO2 --- azo dye --- wastewater treatment --- photocatalysis --- sodium formate --- dry etching --- black silicon --- photovoltaics --- plasmonics --- heterogeneous catalysis --- nanoparticles --- single molecule localization --- super-resolution microscopy --- surface-enhanced Raman spectroscopy --- Li-ion batteries --- anodes --- intermetallics --- silicon --- composites --- nanomaterials --- coating --- mechanochemistry --- zinc sulfide --- wurtzite --- co-precipitation synthesis --- solvent recycling --- green synthesis --- scaling up --- pilot plant --- chalcopyrite compounds --- nanocrystals --- hydrothermal --- spin coating --- EIS --- conductivity --- lithium-ion batteries --- SnO2 --- nanoarray --- anode --- high-rate --- nanoparticle --- nanoalloy --- catalyst --- CO2 reduction --- hydrocarbon --- synthetic fuel --- iron --- cobalt --- perovskite solar cell --- hole transport layer --- CuCrO2 nanoparticles --- thermal stability --- light stability --- aluminum ion batteries --- reduced graphene oxide --- tin dioxide --- 3D electrode materials --- mechanical properties --- TiO2 --- azo dye --- wastewater treatment --- photocatalysis --- sodium formate --- dry etching --- black silicon --- photovoltaics --- plasmonics --- heterogeneous catalysis --- nanoparticles --- single molecule localization --- super-resolution microscopy --- surface-enhanced Raman spectroscopy --- Li-ion batteries --- anodes --- intermetallics --- silicon --- composites --- nanomaterials --- coating --- mechanochemistry --- zinc sulfide --- wurtzite --- co-precipitation synthesis --- solvent recycling --- green synthesis --- scaling up --- pilot plant --- chalcopyrite compounds --- nanocrystals --- hydrothermal --- spin coating --- EIS --- conductivity --- lithium-ion batteries --- SnO2 --- nanoarray --- anode --- high-rate

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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.

Technology: general issues --- 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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This book is a printed edition of the Special Issue Crystal Chemistry of Zinc, Cadmium and Mercury that was published in Crystals

hydroxyl group --- bis(1 --- quinaldinic acid --- solidification --- xanthate --- wurtzite --- mechanical --- EBSD --- oxo-centred polyhedra --- coordination polymer --- precipitation --- 5-thiophenedicarboxylic acid --- defects in semiconductors --- zinc(II) complexes --- precursor --- nanometer zinc oxide --- zinc --- thermal analysis --- transmission electron microscopy (TEM) --- crystal chemistry --- pyridine --- dithiocarbamate --- high magnetic field --- index of X-ray powder diffraction data --- 1 --- hydrogen bonding --- 2 --- luminescence --- cadmium --- interface structure --- 3-bis(1 --- mercury --- aqueous solution method --- crystallography --- growth mechanism --- PL spectra --- phonon dispersion --- coordination polymers --- 4-triazol-1-yl)propane --- CdZnTe --- oxochromates(VI) --- Ni3Sn structure type --- structural chemistry --- dithiophosphates --- traveling heater method --- ZnO nanorod arrays --- copper amalgams --- dental amalgams --- unusual coordination modes --- CdS --- zinc-rich crystal --- 4-triazol-1-yl)methane --- elastic --- crystal structure --- phonon --- bitopic ligand --- room-temperature solid state reaction --- zinc complex --- characterization --- crystal engineering --- ZnS --- hydrogen bond --- hydroxyl group --- bis(1 --- quinaldinic acid --- solidification --- xanthate --- wurtzite --- mechanical --- EBSD --- oxo-centred polyhedra --- coordination polymer --- precipitation --- 5-thiophenedicarboxylic acid --- defects in semiconductors --- zinc(II) complexes --- precursor --- nanometer zinc oxide --- zinc --- thermal analysis --- transmission electron microscopy (TEM) --- crystal chemistry --- pyridine --- dithiocarbamate --- high magnetic field --- index of X-ray powder diffraction data --- 1 --- hydrogen bonding --- 2 --- luminescence --- cadmium --- interface structure --- 3-bis(1 --- mercury --- aqueous solution method --- crystallography --- growth mechanism --- PL spectra --- phonon dispersion --- coordination polymers --- 4-triazol-1-yl)propane --- CdZnTe --- oxochromates(VI) --- Ni3Sn structure type --- structural chemistry --- dithiophosphates --- traveling heater method --- ZnO nanorod arrays --- copper amalgams --- dental amalgams --- unusual coordination modes --- CdS --- zinc-rich crystal --- 4-triazol-1-yl)methane --- elastic --- crystal structure --- phonon --- bitopic ligand --- room-temperature solid state reaction --- zinc complex --- characterization --- crystal engineering --- ZnS --- hydrogen bond