Organic Semiconductor Materials: Electronic Structure and Applications

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Organic Chemistry: Molecular Orbitals and Hybridization

Explores molecular orbitals, hybridization, sigma and pi bonds, and resonance in organic chemistry.

Organic Electronic Devices

Explores the history, challenges, and quantum mechanics behind organic electronics, focusing on intramolecular electron delocalization and semiconductor materials preparation.

Intramolecular Electron Delocalization

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

Molecular Orbitals in Conjugated Systems

Explores molecular orbitals, bond orders, Hückel theory, and intermolecular forces in conjugated systems.

Charge Transport in Organic Materials: Band and Polaronic Transport

Explores charge transport in organic materials, emphasizing band and polaronic transport, criteria for band transport, and transient localization.

Quantum Mechanics: Schrödinger Equation

Explores the Schrödinger Equation, quantum numbers, atomic orbitals, and molecular orbital theory in quantum mechanics.

Quantum Mechanics Primer

Covers a primer on quantum mechanics, including wave-particle duality, observables, state space, and molecular orbitals.

Charge Transport in Organic Materials

Explores charge transport in organic materials, covering intramolecular electron delocalization, different transport regimes, and advanced topics.

Chemical Bonding: Orbitals and Resonance

Covers the fundamentals of chemical bonding, focusing on orbitals and resonance in organic chemistry.

Metal Hydride Complex Symmetry

Explores the symmetry analysis of a deuterated metal hydride complex and its molecular orbitals.