1. Evaluating the use of graphene electrodes in sub-micrometric, high-frequency n-type organic transistors
- Author
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Camilla Coletti, Marco Affronte, Antonio Cassinese, Stefano Lumetti, Andrea Candini, Federico Chianese, Neeraj Mishra, Chianese, F., Candini, A., Lumetti, S., Mishra, N., Coletti, C., Affronte, M., and Cassinese, A.
- Subjects
Short channel transistors ,Materials science ,N-type organic semiconductors ,Organic electronic ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,law.invention ,Quantum capacitance ,law ,Materials Chemistry ,Miniaturization ,Organic electronics ,Organic field-effect transistor ,Graphene ,business.industry ,Mechanical Engineering ,Transistor ,Metals and Alloys ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,0104 chemical sciences ,Electronic, Optical and Magnetic Materials ,OFET ,Mechanics of Materials ,Electrode ,Optoelectronics ,N-type organic semiconductor ,0210 nano-technology ,business ,Low voltage - Abstract
In this work we report on fully operational sub-micrometric low voltage OFETs by using graphene as the source-drain electrodes pair and a high- κ ultra-thin dielectric in a local gate architecture. The impact of the graphene electrodes on the miniaturization of the organic devices has been assessed, with particular attention to the influence of the contact resistances as well as the parasitic overlap gate capacitance on the device bandwidth. By the use of a modified Transmission-Line-Method, contact resistances have been analyzed as function of the applied voltages, revealing characteristic functional trends that follow the doping state of graphene electrodes. Through impedance spectroscopy of the electrodes, cut-off frequencies as high as 105 Hz have been estimated, highlighting the peculiar role of quantum capacitance of graphene in such architectures.
- Published
- 2021
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