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Carbon nanotubes. --- Nanotechnology. --- Molecular technology --- Nanoscale technology --- High technology --- CNTs (Carbon nanotubes) --- Nanotubes

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Interest in plasma as a tool in various technological processes has been growing for several decades. This is because of the special advantage of plasma, which is the immediate generation of chemically active radicals. There are also other advantages of plasma, which depend on its source, e.g., low or high temperature (dielectric barrier discharge vs. plasmatrons), large or small volume (electron beam chambers vs. microplasma), high or low homogeneity (low pressure RF plasma vs. corona discharge), etc. It is no wonder that plasma is used in so many areas, starting with the synthesis of ozone initiated by Werner von Siemens in 1857, through the activation of material surfaces and flow control by actuators and electrohydrodynamic pumps, to the latest applications related to medicine, environmental protection, and efforts to stop climate change. The objective of this book is to collect reports on the design and characterization of plasma methods which are or can be used in various types of technologies, especially those that solve contemporary problems regarding materials, energy, and the environment.

Technology: general issues --- plasma --- dielectric barrier discharges --- state-controlling method --- microwave plasma --- AMPCVD --- CNTs --- Lorentzian plasmas --- coulomb focusing --- bremsstrahlung --- dielectric barrier discharge --- NO oxidation --- diesel exhaust --- oxidation degree of NOX --- hydrogen plasma --- atmospheric pressure plasma --- selective etching --- polymer-metal mesh composite foil --- roll-to-roll processing --- microdischarge --- electrical discharge --- dusty plasma --- hydrocarbon --- carbon structures --- helical resonator --- radio frequency --- RF plasma source --- n/a

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The book covers all of the specific aspects of this topic, ranging from preparatory approaches, functionalization strategies of NPs and polymers, processing and integration of nanocomposites in additive manufacturing materials, and technological methodologies to obtain functional multiphase materials for advanced application.

Technology: general issues --- silk sericin --- agar --- silver nanoparticles --- antimicrobial activity --- CaCO3 nanoparticles --- polyethylene nanocomposites --- photoaged polyethylene --- ZnO nanoparticles --- polydopamine --- sericin --- mechanical performance --- antibacterial activity --- vacuum casting --- carbon nanotubes (CNTs) --- nanocomposite --- mechanical properties --- nanocomposites --- polymer --- silica --- grafting --- dispersion --- rheology --- crystallisation --- high density polyethylene --- polypropylene --- composites --- UV-Vis stability --- mechanical and thermal properties --- photopolymerization --- nanocomposite materials --- upconversion nanoparticles --- NIR light --- surface modification --- polyurea nano-capsules --- magnetic nanoparticles --- nano-emulsions --- interfacial polymerization --- composite nanomaterials --- colloidal crystal --- inverse opal --- electro-hydrodynamic atomization --- photonic ball --- titania --- silk sericin --- agar --- silver nanoparticles --- antimicrobial activity --- CaCO3 nanoparticles --- polyethylene nanocomposites --- photoaged polyethylene --- ZnO nanoparticles --- polydopamine --- sericin --- mechanical performance --- antibacterial activity --- vacuum casting --- carbon nanotubes (CNTs) --- nanocomposite --- mechanical properties --- nanocomposites --- polymer --- silica --- grafting --- dispersion --- rheology --- crystallisation --- high density polyethylene --- polypropylene --- composites --- UV-Vis stability --- mechanical and thermal properties --- photopolymerization --- nanocomposite materials --- upconversion nanoparticles --- NIR light --- surface modification --- polyurea nano-capsules --- magnetic nanoparticles --- nano-emulsions --- interfacial polymerization --- composite nanomaterials --- colloidal crystal --- inverse opal --- electro-hydrodynamic atomization --- photonic ball --- titania

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The book covers all of the specific aspects of this topic, ranging from preparatory approaches, functionalization strategies of NPs and polymers, processing and integration of nanocomposites in additive manufacturing materials, and technological methodologies to obtain functional multiphase materials for advanced application.

Technology: general issues --- silk sericin --- agar --- silver nanoparticles --- antimicrobial activity --- CaCO3 nanoparticles --- polyethylene nanocomposites --- photoaged polyethylene --- ZnO nanoparticles --- polydopamine --- sericin --- mechanical performance --- antibacterial activity --- vacuum casting --- carbon nanotubes (CNTs) --- nanocomposite --- mechanical properties --- nanocomposites --- polymer --- silica --- grafting --- dispersion --- rheology --- crystallisation --- high density polyethylene --- polypropylene --- composites --- UV-Vis stability --- mechanical and thermal properties --- photopolymerization --- nanocomposite materials --- upconversion nanoparticles --- NIR light --- surface modification --- polyurea nano-capsules --- magnetic nanoparticles --- nano-emulsions --- interfacial polymerization --- composite nanomaterials --- colloidal crystal --- inverse opal --- electro-hydrodynamic atomization --- photonic ball --- titania

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Lithium-ion batteries (LIBs), as a key part of the 2019 Nobel Prize in Chemistry, have become increasingly important in recent years, owing to their potential impact on building a more sustainable future. Compared with other batteries developed, LIBs offer high energy density, high discharge power, and a long service life. These characteristics have facilitated a remarkable advance of LIBs in many frontiers, including electric vehicles, portable and flexible electronics, and stationary applications. Since the field of LIBs is advancing rapidly and attracting an increasing number of researchers, it is necessary to often provide the community with the latest updates. Therefore, this book was designed to focus on updating the electrochemical community with the latest advances and prospects on various aspects of LIBs. The materials presented in this book cover advances in several fronts of the technology, ranging from detailed fundamental studies of the electrochemical cell to investigations to better improve parameters related to battery packs.

Research & information: general --- lithium-ion batteries --- coulombic efficiency --- capacity loss --- production strategies --- laser cutting --- cell manufacturing --- automotive pouch cells --- spent batteries and accumulators --- Li-ion cells --- legislation --- recycling --- porosity --- manufacturing --- tolerance --- Lithium-Ion --- capacity ratio --- electrolyte volume --- resistance measurement --- contact quality --- laser beam welding --- aluminium --- copper --- battery systems --- spatial power modulation --- single mode fibre laser --- EIS --- electrochemical impedance spectroscopy --- characterization --- diagnostics --- abuse test --- high temperature --- degradation --- safety --- ultrasonics --- ultrasound --- strain --- gassing --- gas evolution --- lithium-ionbattery --- Cahn-Hilliard equation --- intercalation --- particle size distribution --- battery safety --- hazard analysis --- gas analysis --- lithium-ion --- thermal runaway --- vent particle analysis --- vent gas emission --- internal resistance --- battery parameters --- equivalent circuit model --- capacity fade --- secondary applications --- end-of-life --- cell balancing --- temperature effects --- equivalent circuit models --- Li-ion battery packs --- thermal management systems --- electric vehicles --- sensitivity --- electrolyte --- lithium ion battery --- 4DM --- terminal voltage --- side reactions --- lithium-ion battery --- bipolar battery --- polymer-carbon composite --- current collector --- water-based electrode slurries --- carbon primer --- CNTs --- LMNO --- LTO --- n/a