Title :
Micro-Electro-Mechanical capacitors based on vertical carbon nanotube arrays
Author :
Arun, A. ; Acquaviva, D. ; Fernández-Bolaños, M. ; Salet, P. ; Le-Poche, H. ; Idda, T. ; Smajda, R. ; Magrez, A. ; Forro, L. ; Ionescu, A.M.
Author_Institution :
NanoLab, Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Abstract :
This paper explores the design and fabrication of Micro-Electro-Mechanical capacitors based on vertical carbon nanotube arrays. The devices are realized in vertically single-clamped parallel plate configurations using a dense array of vertically grown MWCNTs on metal lines. The capacitance tuning is performed by electrostatic actuation. From the pull-in voltage value, based on novel analytical model of single-clamped vertical CNT membranes, we extract an equivalent Young modulus of the CNT array ranging in the 10´s of MPa. S-parameter measurements combined with an equivalent circuit model enable the demonstration of a capacitors with values of 50-200 fF with a tuning range of the order of 19%.
Keywords :
S-parameters; Young´s modulus; capacitors; carbon nanotubes; circuit tuning; electrostatic actuators; equivalent circuits; micromechanical devices; nanotube devices; parallel processing; C; S-parameter; analytical model; capacitance tuning; dense array; electrostatic actuation; equivalent Young modulus; equivalent circuit model; metal lines; microelectro-mechanical capacitors; pull-in voltage value; single-clamped parallel plate configurations; vertical carbon nanotube arrays; vertically grown multiwalled carbon nanotubes; Analytical models; Biomembranes; Capacitance; Capacitors; Carbon nanotubes; Circuit optimization; Electrostatic actuators; Fabrication; Voltage; Young´s modulus;
Conference_Titel :
Solid State Device Research Conference, 2009. ESSDERC '09. Proceedings of the European
Conference_Location :
Athens
Print_ISBN :
978-1-4244-4351-2
Electronic_ISBN :
1930-8876
DOI :
10.1109/ESSDERC.2009.5331309
