Add to ORKGWe report experimental demonstrations of electrostatically actuated, contact-mode nanoelectromechanical switches based on very thin silicon carbide (SiC) nanowires (NWs). These NWs are lithographically patterned from a 50 nm thick SiC layer heteroepitaxially grown on single-crystal silicon (Si). Several generic designs of in-plane electrostatic SiC NW switches have been realized, with NW widths as small as ~20 nm and lateral switching gaps as narrow as ~10 nm. Very low switch-on voltages are obtained, from a few volts down to ~1 V level. Two-terminal, contact-mode “hot” switching with high on/off ratios (>10^2 or 10^3) has been demonstrated repeatedly for many devices. We find enhanced switching performance in bare SiC NWs, with lifetimes e...
Nanowires (NWs) open promising near-future perspectives for the design and fabrication of nano-scale...
International audienceThis work reports on the label-free electrical detection of DNA molecules for ...
Here, we describe the operation of a nano-electro-mechanical contact switch. The switch design relie...
We report experimental demonstrations of electrostatically actuated, contact-mode nanoelectromechani...
We report experimental demonstration of nanoscale electromechanical contact-mode switches with clear...
We report the first ever silicon carbide (SiC) nano-electro-mechanical systems (NEMS) switches capab...
Abstract—We present demonstration and experimental results of four-terminal nanoscale electromechani...
We report an experimental study on AC measurements of contact-mode switches based on silicon carbide...
International audienceWe report here the observation of a new self-oscillation mechanism in nanoelec...
Silicon carbide (SiC) remains the most promising semiconductor for developing harsh environment micr...
International audienceThe effect of annealing temperature has been investigated to obtain a low ohmi...
Abstract—Growing number of important application areas, including automotive and industrial applicat...
Suspended silicon nanowires with narrow (∼10 nm) conduction channel are fabricated and characterised...
SiC is an extremely promising material for nanoelectromechanical systems given its large Young's mod...
The research of advanced material such as Carbon Nanotubes (CNT) has attracted considerable attentio...
Nanowires (NWs) open promising near-future perspectives for the design and fabrication of nano-scale...
International audienceThis work reports on the label-free electrical detection of DNA molecules for ...
Here, we describe the operation of a nano-electro-mechanical contact switch. The switch design relie...
We report experimental demonstrations of electrostatically actuated, contact-mode nanoelectromechani...
We report experimental demonstration of nanoscale electromechanical contact-mode switches with clear...
We report the first ever silicon carbide (SiC) nano-electro-mechanical systems (NEMS) switches capab...
Abstract—We present demonstration and experimental results of four-terminal nanoscale electromechani...
We report an experimental study on AC measurements of contact-mode switches based on silicon carbide...
International audienceWe report here the observation of a new self-oscillation mechanism in nanoelec...
Silicon carbide (SiC) remains the most promising semiconductor for developing harsh environment micr...
International audienceThe effect of annealing temperature has been investigated to obtain a low ohmi...
Abstract—Growing number of important application areas, including automotive and industrial applicat...
Suspended silicon nanowires with narrow (∼10 nm) conduction channel are fabricated and characterised...
SiC is an extremely promising material for nanoelectromechanical systems given its large Young's mod...
The research of advanced material such as Carbon Nanotubes (CNT) has attracted considerable attentio...
Nanowires (NWs) open promising near-future perspectives for the design and fabrication of nano-scale...
International audienceThis work reports on the label-free electrical detection of DNA molecules for ...
Here, we describe the operation of a nano-electro-mechanical contact switch. The switch design relie...