Smart Materials for Energy Storage and Biomedical Applications
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Beschreibung
This book brings together a curated selection of research in the broad field of smart materials, emphasizing their properties, functionality, and transformative potential. Covering diverse applications, from energy systems to biomedical advancements, it offers a snapshot of current innovations across multiple disciplines.
The chapters begin with an introduction to smart material properties and their applications, progressing to in-depth discussions on topics like magnetocaloric effects in pyrochlore oxides, topological insulators, and magnetoelectric perovskites. Key studies examine magnetic nanoparticles for cancer biology, soft materials for sustainable technologies, and Pb-free perovskite ceramics with giant dielectric constants. Advanced research on nano-structured materials, material oxides in thin-film technologies, and photonic crystals further enrich this collection.
A special focus is given to topological spin textures, such as skyrmions, and their applications in spintronic devices. From theoretical models to experimental insights, this book encompasses a wide range of topics that appeal to both established scientists and emerging researchers.
This book brings together a curated selection of research in the broad field of smart materials, emphasizing their properties, functionality, and transformative potential. Covering diverse applications, from energy systems to biomedical advancements, it offers a snapshot of current innovations across multiple disciplines.
The chapters begin with an introduction to smart material properties and their applications, progressing to in-depth discussions on topics like magnetocaloric effects in pyrochlore oxides, topological insulators, and magnetoelectric perovskites. Key studies examine magnetic nanoparticles for cancer biology, soft materials for sustainable technologies, and Pb-free perovskite ceramics with giant dielectric constants. Advanced research on nano-structured materials, material oxides in thin-film technologies, and photonic crystals further enrich this collection.
A special focus is given to topological spin textures, such as skyrmions, and their applications in spintronic devices. From theoretical models to experimental insights, this book encompasses a wide range of topics that appeal to both established scientists and emerging researchers.
Explores emerging trends in smart materials, including 1D, 2D, and 3D structures for diverse applications Discusses groundbreaking studies on topological insulators, magnetic nanoparticles, and skyrmion spin textures Presents theoretical and experimental research on photonic crystals, material oxides, and nano-structured surfaces
Autor*in
Amodini Mishra
Themen in »Smart Materials for Energy Storage and Biomedical Applications«
Magnetocaloric Effect in Pyrochlore Oxides Topological Insulators Surface States Multiferroic Perovskite Magnetoelectric Materials Magnetic Nanoparticles for Cancer Therapy Soft Materials for Sustainable Technologies Pb-Free Perovskite Ceramics with Dielectric Constants Nano-Structured Materials Thermal Spike Model Material Oxides in Thin-Film Transistors Photonic Crystal Reflectance and Transmittance Topological Spin Textures in Magnetic Materials Skyrmions for Spintronic Devices 1D Photonic Crystals with Germanium-Silicon Layers Self-Organized Surface Morphology by Ion Irradiation Thin Solid Films for Nano-Applications Time-Reversal Symmetry in Quantum Materials