Vertical Enhancement-Mode InAs Nanowire Field-Effect Transistor With 50-nm Wrap Gate
Top Cited Papers
- 22 February 2008
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Electron Device Letters
- Vol. 29 (3), 206-208
- https://doi.org/10.1109/led.2007.915374
Abstract
We present results on fabrication and dc characterization of vertical InAs nanowire wrap-gate field-effect transistor arrays with a gate length of 50 nm. The wrap gate is defined by evaporation of 50-nm Cr onto a 10-nm-thick HfO2 gate dielectric, where the gate is also separated from the source contact with a 100-nm SiOx, spacer layer. For a drain voltage of 0.5 V, we observe a normalized transconductance of 0.5 S/mm, a subthreshold slope around 90 mV/dec, and a threshold voltage just above 0 V. The highest observed normalized on current is 0.2 A/mm, with an off current of 0.2 mA/mm. These devices show a considerable improvement compared to previously reported vertical InAs devices with SiNx, gate dielectrics.Keywords
This publication has 13 references indexed in Scilit:
- High Transconductance MISFET With a Single InAs Nanowire ChannelIEEE Electron Device Letters, 2007
- Epitaxial Growth of Indium Arsenide Nanowires on Silicon Using Nucleation Templates Formed by Self‐Assembled Organic CoatingsAdvanced Materials, 2007
- Vertical surround-gated silicon nanowire impact ionization field-effect transistorsApplied Physics Letters, 2007
- Nanowire Field-Effect TransistorJapanese Journal of Applied Physics, 2007
- Vertical high-mobility wrap-gated InAs nanowire transistorIEEE Electron Device Letters, 2006
- High performance 5nm radius Twin Silicon Nanowire MOSFET (TSNWFET) : fabrication on bulk si wafer, characteristics, and reliabilityPublished by Institute of Electrical and Electronics Engineers (IEEE) ,2006
- Realization of a Silicon Nanowire Vertical Surround‐Gate Field‐Effect TransistorSmall, 2005
- Benchmarking Nanotechnology for High-Performance and Low-Power Logic Transistor ApplicationsIEEE Transactions on Nanotechnology, 2005
- Single Crystal Nanowire Vertical Surround-Gate Field-Effect TransistorNano Letters, 2004
- One-dimensional heterostructures in semiconductor nanowhiskersApplied Physics Letters, 2002