Molecular alignment on graphene surface determines transport properties of graphene/organic semiconductor transistors

Graphene field-effect transistor structures were used to investigate the role of molecular alignment on charge transport properties of heterostructures comprising a single-layer graphene and variable thickness of N,N′-bis(n-octyl)-(1,7&1,6)-dicyanoperylene-3,4:9,10-bisdicarboximide (PDI8-CN2) -...

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Bibliographic Details
Published in:Organic electronics 2020-12, Vol.87, p.105933, Article 105933
Main Authors: Tkachuk, Vadym, Pavlica, Egon, Bratina, Gvido
Format: Article
Language:English
Subjects:
Atomic force microscopy
Charge transport
graphene
Organic semiconductors
Transistors
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Summary:Graphene field-effect transistor structures were used to investigate the role of molecular alignment on charge transport properties of heterostructures comprising a single-layer graphene and variable thickness of N,N′-bis(n-octyl)-(1,7&1,6)-dicyanoperylene-3,4:9,10-bisdicarboximide (PDI8-CN2) - an n-type organic semiconductor. Our atomic force microscopy data show that under selected growth conditions PDI8-CN2 grows in a layer-by-layer fashion up to a second monolayer. The first layer comprises flat-lying molecules, whereas the molecules in the second layer orient themselves in an upright orientation. Transconductance measurements show that the flat-lying molecules have little effect on the position of the Fermi level in graphene. Upright oriented molecules in the second layer instead, have a strong effect as to neutralize native p-type doping of graphene and cause a shift of charge-neutrality level towards the Dirac point. We interpret such behavior in terms of different orientation of the surface dipole on layers with different molecular orientations. At the same time the overall mobility of the charge carriers reaches values exceeding 3000 cm2/Vs. [Display omitted] •PDI8-CN2 grows in a layer-by-layer mode up to a second mono-layer on graphene.•Molecules in the first layer lie flat in the second are upright on the surface.•Flat-lying molecules have little effect on the position of the Fermi level in graphene.•Upright oriented molecules cause a shift of charge-neutrality level towards the Dirac point.
ISSN:1566-1199
1878-5530
DOI:10.1016/j.orgel.2020.105933