The process for the fabrication of devices based on a single silicon nanowire with a triangular section is presented and discussed. The top down fabrication process exploits the properties of silicon anisotropic etching for the realization of very regular trapezoidal structures, that can be uniformly reduced in controlled way by means of lateral oxidation. This allows the reproducible realization of nanowires smaller than 20 nm, and with a length of several micrometers, starting from relatively big structures that, even if electron beam lithography has been used in the present work, could be realized also by other (as optical) lithographic techniques. Nanowires are already placed between silicon contacts for electrical transport characteriz...
In this paper we present fabricated Si nanowires (NWs) of different dimensions with enhancedelectric...
Electron beam lithography, low-damage dry etch and thermal oxidation have been used to pattern Si n...
[[abstract]]A new method is proposed for fabricating silicon nanowires (SiNWs) on silicon substrates...
Fabrication processes for silicon nanowires with triangular cross section are presented. Processes b...
This work presents fabrication processes of nanostructures on a top silicon layer of silicon on insu...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...
In this paper, we report a method of fabricating silicon nano-wire based on thermal oxidation techni...
The aim of this paper is to present a novel approach to pattern silicon nanowires for advanced elect...
Introducing a single silicon nanowire with a known orientation and dimensions to a specific layout l...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
A method for fabricating single crystal silicon nanowires is presented using top-down optical lithog...
In this paper, the most recent achievements in the field of device fabrication, based on nanostruc- ...
We report a new and controlled top-down fabrication process to prepare locally thinned down silicon ...
Semiconductor nanotechnology is today a very well studied subject, and demonstrations of possible ap...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
In this paper we present fabricated Si nanowires (NWs) of different dimensions with enhancedelectric...
Electron beam lithography, low-damage dry etch and thermal oxidation have been used to pattern Si n...
[[abstract]]A new method is proposed for fabricating silicon nanowires (SiNWs) on silicon substrates...
Fabrication processes for silicon nanowires with triangular cross section are presented. Processes b...
This work presents fabrication processes of nanostructures on a top silicon layer of silicon on insu...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...
In this paper, we report a method of fabricating silicon nano-wire based on thermal oxidation techni...
The aim of this paper is to present a novel approach to pattern silicon nanowires for advanced elect...
Introducing a single silicon nanowire with a known orientation and dimensions to a specific layout l...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
A method for fabricating single crystal silicon nanowires is presented using top-down optical lithog...
In this paper, the most recent achievements in the field of device fabrication, based on nanostruc- ...
We report a new and controlled top-down fabrication process to prepare locally thinned down silicon ...
Semiconductor nanotechnology is today a very well studied subject, and demonstrations of possible ap...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
In this paper we present fabricated Si nanowires (NWs) of different dimensions with enhancedelectric...
Electron beam lithography, low-damage dry etch and thermal oxidation have been used to pattern Si n...
[[abstract]]A new method is proposed for fabricating silicon nanowires (SiNWs) on silicon substrates...