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Lecture
Organic Materials: Charge Delocalization & Disorder
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Related lectures (32)
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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.
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.
Effective Masses in Semiconductor Physics
Covers effective masses in semiconductors, focusing on energy bands and their implications for materials like silicon and gallium arsenide.
Band and Band-like Transport
Explores band and band-like transport in materials, including criteria, examples, charge transfer, and second quantization.
Semiconductor Materials: Charges and Energy Levels
Covers the fundamentals of semiconductor materials, including crystal structure, energy levels, electrons, holes, charge density, and doping.
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.
Semiconductor Band Structure
Explores semiconductor band structure, including Fourier transform, crystal structures, and bandgap systematics.
Chemistry: Atomic Structure and Thermodynamics
Covers atomic structure, thermodynamics, material properties, and ideal gas law.
Drude Model: Moving Charges
Explores the Drude model, charge scattering, conductivity, and temperature effects on materials.
Intramolecular Electron Delocalization
Explores intramolecular electron delocalization in organic electronics, covering history, challenges, charge transport, device preparation, and advanced topics.
