International audienceFuture Nanoelectronic devices face substantial challenges, in particular increased power consumption, saturation of performance, large variability and reliability limitation. In this respect, novel device architectures using innovative materials will be needed for Nanoscale FETs. This paper presents promising solutions for the end of the roadmap with Multigate NanoMOSFETs, Tunnel transistors, Ferroelectric FET, and Hybrid Nanocomponents using 2D and 1D nanostructures and other alternative materials, that will allow to boost the performance of these advanced nanotransistors
After decades of relentless progress, the silicon CMOS industry is approaching a stall in device per...
We present a versatile nanodamascene process for the realization of low-power nanoelectronic devices...
Abstract—An increasing integration of nanoscale sensors is being observed in BioSensing and Biomimet...
International audienceFuture Nanoelectronic devices face substantial challenges, in particular incre...
International audienceWe are facing many challenges for future nanoelectronic devices in the next tw...
International audienceFuture ICs are facing dramatic challenges in performance as well as static and...
International audienceWe are facing many challenges for future nanoelectronic devices in the next tw...
International audienceFuture Nanoelectronic devices faces substantial challenges, in particular incr...
International audienceWe are facing many challenges for future nanoelectronic devices in the next tw...
International audienceThis chapter focuses on the main trends, challenges, limits, and possible solu...
reviewInternational audienceWe are facing dramatic challenges dealing with future nano-scale devices...
As the dimensions of transistors shrink, the close proximity between the source and drain reduces th...
In this chapter, we review some of the most recent results in these areas and put them in a unified ...
This paper presents different strategies to improve the energy efficiency of nanoscaled Si based dev...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
After decades of relentless progress, the silicon CMOS industry is approaching a stall in device per...
We present a versatile nanodamascene process for the realization of low-power nanoelectronic devices...
Abstract—An increasing integration of nanoscale sensors is being observed in BioSensing and Biomimet...
International audienceFuture Nanoelectronic devices face substantial challenges, in particular incre...
International audienceWe are facing many challenges for future nanoelectronic devices in the next tw...
International audienceFuture ICs are facing dramatic challenges in performance as well as static and...
International audienceWe are facing many challenges for future nanoelectronic devices in the next tw...
International audienceFuture Nanoelectronic devices faces substantial challenges, in particular incr...
International audienceWe are facing many challenges for future nanoelectronic devices in the next tw...
International audienceThis chapter focuses on the main trends, challenges, limits, and possible solu...
reviewInternational audienceWe are facing dramatic challenges dealing with future nano-scale devices...
As the dimensions of transistors shrink, the close proximity between the source and drain reduces th...
In this chapter, we review some of the most recent results in these areas and put them in a unified ...
This paper presents different strategies to improve the energy efficiency of nanoscaled Si based dev...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
After decades of relentless progress, the silicon CMOS industry is approaching a stall in device per...
We present a versatile nanodamascene process for the realization of low-power nanoelectronic devices...
Abstract—An increasing integration of nanoscale sensors is being observed in BioSensing and Biomimet...