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Lecture
Band Structure: 3D to OD
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Related lectures (32)
Semiconductor Materials and Nanostructures
Covers the history of semiconductor materials, band structure, charge carriers, doping, electronic transport, optical properties, and applications.
Carrier Statistics and Fermi Energy
Covers the Fermi-Dirac function, carrier distribution, and band edges.
Tight-binding Approximation: 3D Lattice of Na Atoms
Explores the tight-binding approximation for a 3D lattice of Na atoms and its impact on the Fermi surface and band structure.
Carrier Statistics: Understanding Fermi Level Dynamics
Explores carrier statistics and the Fermi level's role in semiconductors.
Charge Formation and Delocalization: Solitons, Polarons, and Interfaces
Explores charge carriers in organic semiconductors, including solitons, polarons, and band transport regimes.
Strain and Heteroepitaxy
Explores the impact of strain on semiconductor band structures, epitaxy, critical thickness, and defect formation, emphasizing the role of Hooke's law and elasticity theory.
Semiconductor Detectors
Explores the principles and operation of semiconductor detectors for radiation detection.
Charges at Interfaces: Fermi-Dirac Distribution and Density of States
Explores Fermi-Dirac distribution, density of states, charge injection in semiconductors, and electrode materials.
Excitons, Luminescence and LEDs
Explores excitons, luminescence, and LEDs, including their formation, impact on carrier density, and working principles.
Diode Schottky and PN Heterojunctions: Band Structure Analysis
Covers the construction of band diagrams for Schottky diodes and PN heterojunctions in semiconductor physics.
Electronic Materials: Optical Properties
Explores electronic and optic properties of materials with lattice structures, including energy bands and band gaps.
Surface Absorption and Catalysis
Explores surface absorption, catalysis, and the importance of specific surfaces in chemical reactions and hydrogen economy.
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