Publication | Closed Access
The Role of the Ionization Potential in Vacuum‐Level Alignment at Organic Semiconductor Interfaces
130
Citations
25
References
2007
Year
EngineeringOrganic ElectronicsPentacene MonolayerVacuum DeviceChemistryCharge TransportIonization PotentialNanoelectronicsPentacene FilmCharge Carrier TransportElectrochemical InterfaceMaterials SciencePhysicsOrganic SemiconductorSubstrate Work FunctionsMicroelectronicsOrganic Semiconductor InterfacesNatural SciencesSurface ScienceApplied PhysicsVacuum‐level AlignmentElectrical Insulation
The charge-injection barriers at interfaces of a pentacene monolayer are investigated. It is found that the charge-injection barrier depends on the substrate work function. Substrate work functions smaller than the ionization potential of pentacene film have vacuum-level alignment, whereas for substrate work functions exceeding the ionization potential of pentacene film, the HOMO of the pentacene film is pinned to near the Fermi level of the substrate (see figure).
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