Optical Properties: Semiconductors

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Light-Matter Interactions: Optical Detectors Overview

Provides an overview of light-matter interactions and their implications for optical detectors, including absorption, emission, and the characteristics of various semiconductor materials.

Semiconductor Properties: Band Structure and Carrier Statistics

Explores semiconductor band structure, carrier statistics, and impurities' impact on carrier activation and conductivity.

Intramolecular Electron Delocalization

Explores intramolecular electron delocalization in organic electronics, covering history, challenges, charge transport, device preparation, and advanced topics.

Basic Semiconductor Properties

Explores semiconductor fundamentals, including band structure, carrier concentration, and Fermi levels.

Introduction to Semiconductors and Nanostructures

Introduces the course on semiconductors and nanostructures, covering objectives, evaluation, and the importance of these materials in technology.

Semiconductor Absorption: Band-to-Band Process

Explores band-to-band absorption in semiconductors, defect bands impact, and color origins.

Doping in Semiconductors: Carrier Concentration and Ionization Energy

Discusses doping in semiconductors, focusing on carrier concentration, ionization energy, and the effects of temperature on electrical properties.

Electrical and Magnetic Properties of Materials

Explores electrical and magnetic properties of materials, including semiconductors, dielectric behavior, and optical phenomena.

Semiconductor Materials and Nanostructures

Covers the history of semiconductor materials, band structure, charge carriers, doping, electronic transport, optical properties, and applications.

Semiconductor Devices II: Contact Resistance Modeling

Explores contact resistance modeling in semiconductor devices, focusing on gate voltage calculation and defect analysis.