Litcius/Paper detail

Charge‐Transfer‐Controlled Growth of Organic Semiconductor Crystals on Graphene

Nguyen Ngan Nguyen, Hyo Chan Lee, Min Seok Yoo, Eunho Lee, Hansol Lee, Seon Baek Lee, Kilwon Cho

2020Advanced Science31 citationsDOIOpen Access PDF

Abstract

Abstract Controlling the growth behavior of organic semiconductors (OSCs) is essential because it determines their optoelectronic properties. In order to accomplish this, graphene templates with electronic‐state tunability are used to affect the growth of OSCs by controlling the van der Waals interaction between OSC ad‐molecules and graphene. However, in many graphene‐molecule systems, the charge transfer between an ad‐molecule and a graphene template causes another important interaction. This charge‐transfer‐induced interaction is never considered in the growth scheme of OSCs. Here, the effects of charge transfer on the formation of graphene–OSC heterostructures are investigated, using fullerene (C 60 ) as a model compound. By in situ electrical doping of a graphene template to suppress the charge transfer between C 60 ad‐molecules and graphene, the layer‐by‐layer growth of a C 60 film on graphene can be achieved. Under this condition, the graphene–C 60 interface is free of Fermi‐level pinning; thus, barristors fabricated on the graphene–C 60 interface show a nearly ideal Schottky–Mott limit with efficient modulation of the charge‐injection barrier. Moreover, the optimized C 60 film exhibits a high field‐effect electron mobility of 2.5 cm 2 V −1 s −1 . These results provide an efficient route to engineering highly efficient optoelectronic graphene–OSC hybrid material applications.

Topics & Concepts

GrapheneMaterials scienceSchottky barrierHeterojunctionNanotechnologySemiconductorDopingvan der Waals forceElectron mobilityFermi levelCharge carrierOrganic semiconductorChemical physicsOptoelectronicsMoleculeElectronChemistryPhysicsDiodeOrganic chemistryQuantum mechanicsGraphene research and applicationsNanowire Synthesis and ApplicationsOrganic Electronics and Photovoltaics
Charge‐Transfer‐Controlled Growth of Organic Semiconductor Crystals on Graphene | Litcius