Details
Surface Defects in Wide-Bandgap LiF, SiO2, and ZnO Crystals
Experiments and SimulationsSpringerBriefs in Materials
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48,14 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 27.05.2024 |
| ISBN/EAN: | 9783031588501 |
| Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>This book deals with surface defects in wide-bandgap crystals of lithium fluoride, silicon dioxide, and zinc oxide. Encompassing topics such as radiation-induced amorphization, crystallization, and various microstructural developments arising from defect production and annealing, the book delves into controlled modifications of physical and chemical properties, micro and nano-structuring of surfaces, and the creation and behavior of structures far from thermal equilibrium, including supersaturated solid solutions, ion tracks, and surfaces treated with electron- and high-intensity ion beams.</p>
<p>Beyond its relevance to the academic community, this monograph serves as a valuable resource for design and installation organizations, offering insights for specialists involved in the development of modern, new, and energy-efficient innovative materials. The applicability extends to traditional silicon energy and semiconductor electronics, providing practical knowledge for professionals engaged in these fields. Additionally, the work is of significance to a broad spectrum of specialists and managers in various organizations involved in the development of lithium-ion batteries for energy storage systems, especially those employing cutting-edge high-performance materials. As a comprehensive reference in materials science, this monograph caters to a diverse audience engaged in the ongoing advancements and applications within this dynamic field. It is suitable for scientific and engineering professionals, as well as researchers specializing in materials science, physics, semiconductors, photovoltaics, defects engineering, laser technology, solid-state physics, and beam-enhanced synthesis and modification of materials.</p>
<p>Beyond its relevance to the academic community, this monograph serves as a valuable resource for design and installation organizations, offering insights for specialists involved in the development of modern, new, and energy-efficient innovative materials. The applicability extends to traditional silicon energy and semiconductor electronics, providing practical knowledge for professionals engaged in these fields. Additionally, the work is of significance to a broad spectrum of specialists and managers in various organizations involved in the development of lithium-ion batteries for energy storage systems, especially those employing cutting-edge high-performance materials. As a comprehensive reference in materials science, this monograph caters to a diverse audience engaged in the ongoing advancements and applications within this dynamic field. It is suitable for scientific and engineering professionals, as well as researchers specializing in materials science, physics, semiconductors, photovoltaics, defects engineering, laser technology, solid-state physics, and beam-enhanced synthesis and modification of materials.</p>
<p>Review of Experimental and Theoretical Works on Defect Formation in Wide-gap Crystals.- Measurement Technique and Experimental Facility.- Formation of Defects and Clusters on the Surface of LiF Crystals Under Electron and Ion Irradiation.- Formation of Defects and Clusters on the Surface of Crystals Si(111) and SiOx at Irradiation by Electrons and Ions.- Formation of Defects and Clusters on the Surface of ZnO Crystals Under Electron Irradiation.</p>
<p>Utkir B. Sharopov, DSc, is a distinguished researcher and Professor at the Solar Thermal and Energetic Applications Laboratory, Uzbekistan Academy of Sciences. With over two decades of experience, he specializes in thermoelectric materials, computational material science, and nanostructures. Starting as a Junior Research Fellow in 2003, his journey led him to explore surface defects in wide-bandgap crystals, including lithium fluoride and zinc oxide. His work encompasses radiation-induced amorphization, crystallization, and the controlled modification of material properties. Noteworthy projects include hydrogen production using solar energy and the development of solar-powered technologies. He is the recipient of various grants, with contributions extending to energy-efficient materials, semiconductor electronics, and lithium-ion batteries. His educational background includes a DSc in Physical Electronics.</p>
Provides in-depth insights into the unique characteristics of surface defects in LiF, SiO2, and ZnO crystals Appeals to experts in energy-efficient materials impacting traditional semiconductor electronics and Li-ion batteries Suitable for reserachers across diverse fields: semiconductors, photovoltaics, laser technology, and defect engineering
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