Add to ORKGWe introduce a vertical carbon nanotube capacitor with high capacitance per unit area. Using an electrical model of single-walled, metallic carbon nanotubes and the extracted capacitance values of a carbon nanotube bundle network, we develop an electrical model for the capacitor. The device can exhibit a capacitance greater than 175fF/mu m(2)
Carbon nanotube metal-insulator-semiconductor capacitors are examined theoretically. For the densely...
Electrochemical capacitors with fast charging-discharging rates are very promising for hybrid electr...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
We introduce a vertical carbon nanotube capacitor with high capacitance per unit area. Using an elec...
Carbon nanotubes are promising candidates for futuristic nanoelectronic applications. In this articl...
Carbon nanotubes are promising candidates for futuristic nanoelectronic applications due to their ex...
Expressions for the “quantum capacitance ” are derived, and regimes are discussed in which this conc...
10.1109/IEEE-IWS.2013.66166932013 IEEE International Wireless Symposium, IWS 2013
Electrical transport in metallic carbon nanotubes, especially the ones with diameters of the order o...
Abstract Electrical transport in metallic carbon nanotubes, especially the ones with diameters of th...
In this work, tunable MEMS capacitors are realized using a vertically grown carbon nanotube array. T...
Carbon nanotubes are incredible materials with interesting mechanical and electrical properties. Thi...
Modeling nanoscale capacitance presents particular challenge because of dynamic contribution from el...
The intimate contact between the electrons in a carbon nanotube and solvated ions in a liquid electr...
The single electron transistor (SET) as a nanoscale transistor operates according to the electron tu...
Carbon nanotube metal-insulator-semiconductor capacitors are examined theoretically. For the densely...
Electrochemical capacitors with fast charging-discharging rates are very promising for hybrid electr...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
We introduce a vertical carbon nanotube capacitor with high capacitance per unit area. Using an elec...
Carbon nanotubes are promising candidates for futuristic nanoelectronic applications. In this articl...
Carbon nanotubes are promising candidates for futuristic nanoelectronic applications due to their ex...
Expressions for the “quantum capacitance ” are derived, and regimes are discussed in which this conc...
10.1109/IEEE-IWS.2013.66166932013 IEEE International Wireless Symposium, IWS 2013
Electrical transport in metallic carbon nanotubes, especially the ones with diameters of the order o...
Abstract Electrical transport in metallic carbon nanotubes, especially the ones with diameters of th...
In this work, tunable MEMS capacitors are realized using a vertically grown carbon nanotube array. T...
Carbon nanotubes are incredible materials with interesting mechanical and electrical properties. Thi...
Modeling nanoscale capacitance presents particular challenge because of dynamic contribution from el...
The intimate contact between the electrons in a carbon nanotube and solvated ions in a liquid electr...
The single electron transistor (SET) as a nanoscale transistor operates according to the electron tu...
Carbon nanotube metal-insulator-semiconductor capacitors are examined theoretically. For the densely...
Electrochemical capacitors with fast charging-discharging rates are very promising for hybrid electr...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...