Organic Semiconductor Materials

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Related lectures (32)

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Organic Electronics: Electronic Perturbations and Semiconductor Devices

Explores challenges and advancements in organic electronics, covering transport, semiconductor devices, and quantum harmonic oscillators.

Chemical Bonding: Orbitals and Resonance

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

Organic Chemistry: Molecular Orbitals and Hybridization

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

Molecular Orbitals: Properties of Conjugated Systems

Discusses molecular orbitals in π-conjugated systems, focusing on their properties and electronic interactions.

Ligand Field Theory: Crystal Field Splitting

Delves into ligand field theory, crystal field splitting, and molecular orbitals in transition metal complexes.

Molecular Structure: Intramolecular Electron Delocalization

Discusses molecular structure and intramolecular electron delocalization, focusing on quantum mechanics and the transition from atomic to molecular orbitals.

Organic Chemistry: Atomic Orbitals and Molecular Bonds

Explores atomic orbitals, molecular bonds, and bond formation in organic chemistry.

Metal Hydride Complex Symmetry

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

Charge Carriers in Organic Electronics: Solitons and Polarons

Discusses charge carriers in organic materials, focusing on solitons, polarons, and their implications for charge transport and device performance.

Molecular Orbitals in Conjugated Systems

Explores molecular orbitals in conjugated systems, covering bond lengths, energy barriers, electronic interactions, and aromaticity.