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Probing charge transfer between molecular semiconductors and graphene.


ABSTRACT: The unique density of states and exceptionally low electrical noise allow graphene-based field effect devices to be utilized as extremely sensitive potentiometers for probing charge transfer with adsorbed species. On the other hand, molecular level alignment at the interface with electrodes can strongly influence the performance of organic-based devices. For this reason, interfacial band engineering is crucial for potential applications of graphene/organic semiconductor heterostructures. Here, we demonstrate charge transfer between graphene and two molecular semiconductors, parahexaphenyl and buckminsterfullerene C60. Through in-situ measurements, we directly probe the charge transfer as the interfacial dipoles are formed. It is found that the adsorbed molecules do not affect electron scattering rates in graphene, indicating that charge transfer is the main mechanism governing the level alignment. From the amount of transferred charge and the molecular coverage of the grown films, the amount of charge transferred per adsorbed molecule is estimated, indicating very weak interaction.

SUBMITTER: Matkovic A 

PROVIDER: S-EPMC5572701 | biostudies-literature | 2017 Aug

REPOSITORIES: biostudies-literature

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Probing charge transfer between molecular semiconductors and graphene.

Matković Aleksandar A   Kratzer Markus M   Kaufmann Benjamin B   Vujin Jasna J   Gajić Radoš R   Teichert Christian C  

Scientific reports 20170825 1


The unique density of states and exceptionally low electrical noise allow graphene-based field effect devices to be utilized as extremely sensitive potentiometers for probing charge transfer with adsorbed species. On the other hand, molecular level alignment at the interface with electrodes can strongly influence the performance of organic-based devices. For this reason, interfacial band engineering is crucial for potential applications of graphene/organic semiconductor heterostructures. Here, w  ...[more]

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