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Lecture
Charge Transport in Semiconductors: Principles and Applications
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Density of States in Semiconductor Devices
Explores density of states in semiconductor devices, covering electron gas, energy bands, Fermi-Dirac distribution, and band structures.
Surface States and Charge Transport
Explores surface states, charge transport in semiconductors, and factors affecting mobility, emphasizing the importance of understanding and improving carrier mobility.
Drude Model: Moving Charges
Explores the Drude model, charge scattering, conductivity, and temperature effects on materials.
Charge Transport in Low Dimensional Systems
Covers charge transport in semiconductors, low dimensional systems, quantum conductance, and the quantum Hall effect.
Drift Currents and Conductivity: Poisson's Equation in Semiconductors
Covers drift currents, conductivity, and the effects of scattering in semiconductors.
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Semiconductor Components: Band Diagram Interpretation
Covers the interpretation of band diagrams in semiconductor components, focusing on pn junction diodes and their behavior under applied voltage.
Intrinsic Semiconductors: Thermal Generation and Carrier Concentration
Covers intrinsic semiconductors, focusing on thermal generation and carrier concentration calculations.
Inelastic Scattering in Transmission Electron Microscopy
Introduces inelastic scattering in transmission electron microscopy, focusing on electron energy-loss spectroscopy principles and applications.
Semiconductor Band Structure
Explores the bandgap in semiconductors, focusing on the interaction between atoms in a crystal and the derivation of the secular equation.
