Deformable Carbon Nanotube-Contact Pads for Inertial Microswitch to Extend Contact Time

“…By contrast experiment, the conclusion has been proved that the extension of contact time can be achieved by reducing the stiffness of the fixed electrode, especially its thickness. In addition to the method of utilizing flexible structure to extend the contact time as described above, some literature mentioned carbon on nanotubes (CNTs) as electrode contact materials [9,88,89]. CNTs are suitable for use as contact materials due to their excellent mechanical and In another way, during the contact process, the deformation of the flexible electrodes (i.e., the fixed electrode or the movable electrode) can provide a buffer for the collision contact between the electrodes, so as to prolong the contact time.…”

“…By contrast experiment, the conclusion has been proved that the extension of contact time can be achieved by reducing the stiffness of the fixed electrode, especially its thickness. In addition to the method of utilizing flexible structure to extend the contact time as described above, some literature mentioned carbon on nanotubes (CNTs) as electrode contact materials [9,88,89].…”

Research Status and Development Trend of MEMS Switches: A Review

“…By contrast experiment, the conclusion has been proved that the extension of contact time can be achieved by reducing the stiffness of the fixed electrode, especially its thickness. In addition to the method of utilizing flexible structure to extend the contact time as described above, some literature mentioned carbon on nanotubes (CNTs) as electrode contact materials [9,88,89]. CNTs are suitable for use as contact materials due to their excellent mechanical and In another way, during the contact process, the deformation of the flexible electrodes (i.e., the fixed electrode or the movable electrode) can provide a buffer for the collision contact between the electrodes, so as to prolong the contact time.…”

“…By contrast experiment, the conclusion has been proved that the extension of contact time can be achieved by reducing the stiffness of the fixed electrode, especially its thickness. In addition to the method of utilizing flexible structure to extend the contact time as described above, some literature mentioned carbon on nanotubes (CNTs) as electrode contact materials [9,88,89].…”

Research Status and Development Trend of MEMS Switches: A Review

“…requires their immobilization on various substrates in a controlled manner either by deposition [13][14][15], transfer [16][17][18][19][20][21] or by direct synthesis [22][23][24] with well-defined structure and geometry. In electrical applications, the contact resistance at the substrate-CNT interface [2,17,25], mechanical robustness and integrity [17,26] as well as charging/discharging behavior of the devices [9][10][11][12] are among the most important parameters to be taken into account.…”

Thin micropatterned multi-walled carbon nanotube films for electrodes

“…The CNT is considered a suitable material for electromechnical contact. Specifically, CNT-to-CNT contact was investigated to achieve a reliable MEMS switching devices [9,10] and applied to inertial microswitch [11]. Moreover, the CNT has been reported to offer an advantage in terms of high-power handling capability [12].…”

Fabrication of an Au–Au/carbon nanotube-composite contacts RF-MEMS switch