A vertically integrated multiple channel-based field-effect transistor (FET) with the highest number of nanowires reported ever is demonstrated on a bulk silicon substrate without use of wet etching. The driving current is increased by 5-fold due to the inherent vertically stacked five-level nanowires, thus showing good feasibility of three-dimensional integration-based high performance transistor. The developed fabrication process, which is simple and reproducible, is used to create multiple stiction-free and uniformly sized nanowires with the aid of the one-route all-dry etching process (ORADEP). Furthermore, the proposed FET is revamped to create nonvolatile memory with the adoption of a charge trapping layer for enhanced practicality. T...
Recently, III-V gate-all-around (GAA) nanowire MOSFETs or III-V 3D transistors have been experimenta...
We present novel Schottky barrier field effect transistors consisting of a parallel array of bottom-...
III-V MOSFETs are candidates for extension of the scaling roadmap beyond 10 nm. In the vertical dire...
Silicon nanowires have received considerable attention as transistor components because they represe...
We describe the fabrication of vertically stacked Silicon Nanowire Field Effect Transistors (SiNWFET...
A simple top down method to fabricate an array of vertically stacked nanowires is presented. By taki...
This letter discusses a feasible variant of vertically integrated reconfigurable field effect transi...
We demonstrate seamless direct integration of a semiconductor nanowire grown using a bottom-up appro...
We introduce a fabrication method for gate-all-around nanowire field-effect transistors. Single nano...
A new processing scheme for the fabrication of sub-100-nm-gate-length vertical nanowire transistors ...
International audienceNanowires are considered building blocks for the ultimate scaling of MOS trans...
In this thesis fabrication and optimization of vertical III-V Tunneling Field-Effect transistors was...
A simple top-down method for realizing an array of vertically stacked nanowires is presented. The pr...
International audienceA vertical MOS architecture implemented on Si nanowire (NW) array with a scale...
We report on the recent achievement of III-V nanowire applications for a vertical FET and steep subt...
Recently, III-V gate-all-around (GAA) nanowire MOSFETs or III-V 3D transistors have been experimenta...
We present novel Schottky barrier field effect transistors consisting of a parallel array of bottom-...
III-V MOSFETs are candidates for extension of the scaling roadmap beyond 10 nm. In the vertical dire...
Silicon nanowires have received considerable attention as transistor components because they represe...
We describe the fabrication of vertically stacked Silicon Nanowire Field Effect Transistors (SiNWFET...
A simple top down method to fabricate an array of vertically stacked nanowires is presented. By taki...
This letter discusses a feasible variant of vertically integrated reconfigurable field effect transi...
We demonstrate seamless direct integration of a semiconductor nanowire grown using a bottom-up appro...
We introduce a fabrication method for gate-all-around nanowire field-effect transistors. Single nano...
A new processing scheme for the fabrication of sub-100-nm-gate-length vertical nanowire transistors ...
International audienceNanowires are considered building blocks for the ultimate scaling of MOS trans...
In this thesis fabrication and optimization of vertical III-V Tunneling Field-Effect transistors was...
A simple top-down method for realizing an array of vertically stacked nanowires is presented. The pr...
International audienceA vertical MOS architecture implemented on Si nanowire (NW) array with a scale...
We report on the recent achievement of III-V nanowire applications for a vertical FET and steep subt...
Recently, III-V gate-all-around (GAA) nanowire MOSFETs or III-V 3D transistors have been experimenta...
We present novel Schottky barrier field effect transistors consisting of a parallel array of bottom-...
III-V MOSFETs are candidates for extension of the scaling roadmap beyond 10 nm. In the vertical dire...