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Heat storage. --- Solar collectors. --- Phase change materials. --- Conductive heat transfer. --- Prandtl number.

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Heat storage. --- Phase change materials. --- Freezing. --- Melting. --- Solar collectors. --- Molten salts. --- Mathematical models. --- Solar energy conversion.

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There is increasingly intensive research for energy storage technologies development due to the enhanced energy needs of the contemporary societies. Increased global energy consumption results in the reduction in the availability of traditional energy resources, such as coal, oil and natural gas. Therefore, there is an urgent need for new systems development based on the conversion and storage of sustainable and clean energy. Phase change materials (PCMs) are one of the key components for the development of advanced sustainable solutions in renewable energy and engineering systems. In order to update the field of renewable energy and engineering systems with the use of PCMs, a Special Issue entitled “Phase Change Materials: Design and Applications” is introduced. This book gathers and reviews the collection of ten contributions (nine articles and one review), with authors from Europe, Asia and Americam accepted for publication in the aforementioned Special Issue of Applied Sciences.

Research & information: general --- Physics --- phase change materials --- thermal energy storage --- energy efficiency --- building applications --- construction materials --- phase-change material --- dispersion --- thermal-mechanical stability --- viscosity --- supercooling --- nucleating agent --- cold storage --- battery cooling --- LPMO --- Fourier Transform ac Voltammetry (FTacV) --- cyclic voltammetry --- Direct Electron Transfer (DET) --- lathrate hydrate --- tetrabutylammonium acrylate (TBAAc) --- crystal growth --- ultrasonic vibration --- polyurethane elastomers --- microencapsulated PCMs --- thermal properties --- mechanical properties --- phase change material --- sugar alcohol --- erythritol --- latent heat storage --- thermal stability --- degradation kinetics --- PCM --- mini-channels --- air --- melting --- solidification --- latent heat thermal energy storage --- phase change materials (PCM) --- macro-encapsulation --- rectangular slab --- experimental study --- sodium nitrate --- thermal conductivity --- microencapsulation --- latent heat --- multicriteria decision --- finite element --- automotive --- energy storage --- n/a

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There is increasingly intensive research for energy storage technologies development due to the enhanced energy needs of the contemporary societies. Increased global energy consumption results in the reduction in the availability of traditional energy resources, such as coal, oil and natural gas. Therefore, there is an urgent need for new systems development based on the conversion and storage of sustainable and clean energy. Phase change materials (PCMs) are one of the key components for the development of advanced sustainable solutions in renewable energy and engineering systems. In order to update the field of renewable energy and engineering systems with the use of PCMs, a Special Issue entitled “Phase Change Materials: Design and Applications” is introduced. This book gathers and reviews the collection of ten contributions (nine articles and one review), with authors from Europe, Asia and Americam accepted for publication in the aforementioned Special Issue of Applied Sciences.

Research & information: general --- Physics --- phase change materials --- thermal energy storage --- energy efficiency --- building applications --- construction materials --- phase-change material --- dispersion --- thermal-mechanical stability --- viscosity --- supercooling --- nucleating agent --- cold storage --- battery cooling --- LPMO --- Fourier Transform ac Voltammetry (FTacV) --- cyclic voltammetry --- Direct Electron Transfer (DET) --- lathrate hydrate --- tetrabutylammonium acrylate (TBAAc) --- crystal growth --- ultrasonic vibration --- polyurethane elastomers --- microencapsulated PCMs --- thermal properties --- mechanical properties --- phase change material --- sugar alcohol --- erythritol --- latent heat storage --- thermal stability --- degradation kinetics --- PCM --- mini-channels --- air --- melting --- solidification --- latent heat thermal energy storage --- phase change materials (PCM) --- macro-encapsulation --- rectangular slab --- experimental study --- sodium nitrate --- thermal conductivity --- microencapsulation --- latent heat --- multicriteria decision --- finite element --- automotive --- energy storage --- phase change materials --- thermal energy storage --- energy efficiency --- building applications --- construction materials --- phase-change material --- dispersion --- thermal-mechanical stability --- viscosity --- supercooling --- nucleating agent --- cold storage --- battery cooling --- LPMO --- Fourier Transform ac Voltammetry (FTacV) --- cyclic voltammetry --- Direct Electron Transfer (DET) --- lathrate hydrate --- tetrabutylammonium acrylate (TBAAc) --- crystal growth --- ultrasonic vibration --- polyurethane elastomers --- microencapsulated PCMs --- thermal properties --- mechanical properties --- phase change material --- sugar alcohol --- erythritol --- latent heat storage --- thermal stability --- degradation kinetics --- PCM --- mini-channels --- air --- melting --- solidification --- latent heat thermal energy storage --- phase change materials (PCM) --- macro-encapsulation --- rectangular slab --- experimental study --- sodium nitrate --- thermal conductivity --- microencapsulation --- latent heat --- multicriteria decision --- finite element --- automotive --- energy storage

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Germanium (Ge) chalcogenides are characterized by unique properties that make these materials interesting for a very wide range of applications from phase change memories to ovonic threshold switches and from photonics to thermoelectric and photovoltaic devices. In many cases, their physical properties can be finely tuned by doping or by changing the amount of Ge, which may therefore play a key role in determining the applications, performance, and even the reliability of these devices. In this book, we include 11 articles, mainly focusing on applications of Ge chalcogenides for non-volatile memories. Most of the papers have been produced with funding received from the European Union’s Horizon 2020 Research and Innovation program under grant agreement n. 824957. In the Special Issue “BeforeHand: Boosting Performance of Phase Change Devices by Hetero- and Nanostructure Material Design”, two contributions are related to the prototypical Ge2Sb2Te5 compound, which is the most studied composition, already integrated in many devices such as optical and electronic memories. Five articles focus on Ge-rich GeSbTe alloys, exploring the electrical and the structural properties, as well as the decomposition paths. Other contributions are focused on the effect of the interfaces and on nanowires.

Technology: general issues --- Chemical engineering --- PCM --- Ge2Sb2Te5 --- sputtering --- flexible substrates --- crystallization --- electrical properties --- phase change materials --- nitrogen --- strain --- kinetics --- amorphous phase --- germanium telluride --- indium alloying --- optical contrast --- Ge-rich alloys --- crystallization temperature --- segregation --- Ge-rich GST alloys --- Raman --- electronic properties --- Ge-rich GST --- pulsed laser deposition --- phase separation --- GGST --- EDX elemental chemical mapping --- embedded memory --- density functional theory --- MOCVD --- VLS --- phase-change memory --- nanowires --- core-shell --- Ge–Sb–Te --- Ge–Sb–Te/Sb2Te3 --- embedded electronic memories --- Density Functional Theory --- high-throughput calculations ---