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- Title
The Relationship between Structural and Electrical Characteristics in Perylenecarboxydiimide-Based Nanoarchitectures.
- Authors
Musumeci, Chiara; Salzmann, Ingo; Bonacchi, Sara; Röthel, Christian; Duhm, Steffen; Koch, Norbert; Samorì, Paolo
- Abstract
The controlled assembly of the prototypical n-type organic semiconductor N,N′-1H,1H-perfluorobutyl dicyanoperylenecarboxydiimide (PDIF-CN2) into ordered nanoarchitectures and the multiscale analysis of the correlation between their structural and their electrical properties is reported. By making use of the Langmuir-Blodgett (LB) technique, monolayers of PDIF-CN2 arranged in upright standing molecular packing on different substrates are formed. Postdeposition thermal treatment makes it possible to trigger a reorganization into layered ultrathin crystalline nanostructures, exhibiting structural and photophysical properties similar to those of microscopic crystals obtained by solvent-induced precipitation. The controlled engineering of these molecular architectures on surfaces enables us to identify both a dependence of the monolayer resistance on the molecular tilt angle in vertical junctions and a pronounced charge-transport anisotropy with enhanced transport along the π-π stacking direction of the PDI core. While a charge carrier mobility for electrons as high as 10-2 cm2 V-1 s-1 is determined in monolayer field-effect transistors for the in-plane direction, being the highest yet reported value for a n-type LB monolayer, the out-of-plane mobility measured by conductive atomic force microscopy in multilayered structures is found to be one order of magnitude lower.
- Subjects
PERYLENE derivatives; MONOMOLECULAR films; NANOFILMS; PERMITTIVITY; NANOSTRUCTURES; ATOMIC force microscopy
- Publication
Advanced Functional Materials, 2015, Vol 25, Issue 17, p2501
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.201403773