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Charge Transport in Discotic Liquid Crystals: A Molecular Scale Description
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2002
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Quantum LiquidEngineeringOrganic ElectronicsTriphenylene MoleculesSelf-healing CapacityChemistrySimple LiquidCharge TransportTransport PhenomenaCharge Carrier TransportPhysicsDiscotic Liquid CrystalsOrganic SemiconductorPhysical ChemistryQuantum ChemistryOrganic Charge-transfer CompoundNatural SciencesApplied PhysicsCondensed Matter PhysicsInterfacial StudyMolecule-based Material
Discotic liquid crystals have emerged as very attractive organic semiconductors due to their high degree of ordering and self-healing capacity. Quantum-chemical calculations that describe the main parameters governing the charge-transfer processes in these systems at the molecular level are reported. The concepts are illustrated by considering columns made of triphenylene molecules and derivatives (see Figure).