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Lecture
Semiconductors: Basic Properties
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Related lectures (32)
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Semiconductor Band Structure
Explores the bandgap in semiconductors, focusing on the interaction between atoms in a crystal and the derivation of the secular equation.
Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
Quantum Structures: Band Gaps and Heterostructures
Covers the formation and properties of quantum wells and heterostructures in semiconductor materials.
Semiconductor Properties: Band Structure and Carrier Statistics
Explores semiconductor band structure, carrier statistics, and impurities' impact on carrier activation and conductivity.
Efficient Visible Light Emitters
Explores the historical evolution and challenges of efficient visible light emitters, focusing on LED technology and the quest for 100%+ efficiency.
Bloch Theorem and Kronig-Penney Model: Band Theory Insights
Covers the Bloch theorem and Kronig-Penney model, essential for understanding semiconductor band theory and electronic states in periodic potentials.
Indirect Bandgap: Optical Detectors and Phonons
Covers the principles of optical detectors in semiconductors with an indirect bandgap, focusing on energy and momentum conservation during electron transitions.
Semiconductor Devices II: Defects Engineering
Covers the analysis of measurements and defects engineering in semiconductor devices, including density of states and defect probing.
Formation of Bands in Semiconductors: Energy States and Stability
Covers the formation of energy bands in semiconductors and their electronic properties.
Carrier Concentration: Extrinsic Semiconductors Overview
Covers the influence of doping on carrier concentrations in extrinsic semiconductors and the resulting shifts in the Fermi energy level.
