English

High Electron Mobility in Vacuum and Ambient for PDIF-CN2 Single-Crystal Transistors

Materials Science 2009-02-06 v1
Authors: Anna S. Molinari , Helena Alves , Zhihua Chen , Antonio Facchetti , Alberto F. Morpurgo
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Abstract

We have investigated the electron mobility on field-effect transistors based on PDIF-CN2_{2} single crystals. The family of the small molecules PDI8-CN2_{2} has been chosen for the promising results obtained for vapour-deposited thin film FETs. We used as gate dielectric a layer of PMMA (spinned on top of the SiO2_{2}), to reduce the possibility of electron trapping by hydroxyl groups present at surface of the oxide. For these devices we obtained a room temperature mobility of 6 cm2^{2}/Vs in vacuum and 3 cm2^{2}/Vs in air. Our measurements demonstrate the possibility to obtain n-type OFETs with performances comparable to those of p-type devices.

Keywords

charge carrier mobility field-effect transistors molecular electronics

Cite

@article{arxiv.0902.0875,
  title  = {High Electron Mobility in Vacuum and Ambient for PDIF-CN2 Single-Crystal Transistors},
  author = {Anna S. Molinari and Helena Alves and Zhihua Chen and Antonio Facchetti and Alberto F. Morpurgo},
  journal= {arXiv preprint arXiv:0902.0875},
  year   = {2009}
}

Comments

published online in JACS

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