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Lecture
Solid State Chemistry: Fundamentals and Applications
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Related lectures (31)
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Solid State Characterization
Covers state-of-the-art methods for solid state characterization and emphasizes choosing the appropriate method for different materials.
Crystal Structures: Miller Indices and Atom Arrangement
Explores crystal structures, Miller indices, X-ray diffraction, and solid microstructures.
Characterization Techniques in Solid State Chemistry
Explores standard characterization techniques, focusing on x-ray diffraction and its importance in determining crystal structures.
Chemical Bonding in Solids
Explores chemical bonding in solids, band structure, and surface scattering techniques for lattice parameter measurements and crystal orientation analysis.
Solar Cells: Energy Generation and Efficiency
Covers the history and physics of solar cells, emphasizing their efficiency metrics and operation under different conditions.
Crystal Structures: Arrangement and Diffraction
Explores crystal structures, unit cells, Miller indices, and X-ray diffraction principles.
Van der Waals Materials: 2D Crystals
Delves into the properties of Van der Waals materials, emphasizing 2D crystals with distinct in-plane bonding and weak interlayer interactions.
Introduction to Materials Science: Atomic Bonds and Crystal Structures
Explores atomic bonds, crystal structures, states of matter, and the cubic crystal system.
Absorption, generation and recombination
Explores the optical properties of solar cells, focusing on absorption, reflection, and generation of electron-hole pairs.
Benchmarking Solar-to-Hydrogen Efficiency
Explores benchmarking techniques for solar-to-hydrogen efficiency in photoelectrochemical cells and photovoltaics.
