Water-gated organic nanowire transistors |
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| Authors: | Abdullah Al Naim Adam Hobson Richard T Grant Antonis Dragoneas Mark Hampton Chris Dunscombe Tim Richardson J Emyr Macdonald Martin Grell |
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| Affiliation: | 1. Department of Physics and Astronomy, University of Sheffield, Hicks Building, Hounsfield Road, Sheffield, South Yorkshire S3 7RH, United Kingdom;2. School of Physics and Astronomy, Cardiff University, The Parade, Cardiff CF24 3AA, United Kingdom |
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| Abstract: | We gated both p-type, and n-type, organic nanowire (NW) films with an aqueous electric double layer (EDL) in thin-film transistor (TFT) architectures. For p-type NWs, we used poly(3-hexylthiophene) (P3HT) NWs grown via two different routes. Both can be gated with water, resulting in TFTs with threshold lower than for conventionally cast P3HT films under the same gating conditions. However, TFT drain currents are lower for NWs than for conventional P3HT films, which agrees with similar observations for ‘dry’ gated TFTs. For n-type NWs, we have grown ‘nanobelts’ of poly(benzimidazobenzophenanthroline) (BBL) by a solvent/non-solvent mixing route with later displacement of the solvent, and dispersion in a non-solvent. Water-gating such films initially failed to give an observable drain current. However, BBL nanobelts can be gated with the aprotic solvent acetonitrile, giving high n-type drain currents, which are further increased by adding salt. Remarkably, after first gating BBL NW films with acetonitrile, they can then be gated by water, giving very high drain currents. This behaviour is transient on a timescale of minutes. We believe this observation is caused by a thin protective acetonitrile film remaining on the nanobelt surface. |
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