A method for fabricating single crystal silicon nanowires is presented using top-down optical lithography and anisotropic etching. Wire diameters as small as 10 nm are demonstrated using silicon on insulator substrates. Structural characterization confirms that wires are straight, have a triangular cross section and are without breakages over lengths of tens of microns. Electrical characterization indicates bulk like mobility values, not strongly influenced by surface scattering or quantum confinement. Processing is compatible with conventional silicon technology having much larger critical dimensions. Integrating such nanowires with a mature CMOS technology offers an inexpensive route to their exploitation as sensors
Semiconducting Silicon (Si) nanowires (NWs) have been widely investigated for their potential to fun...
Recently, Si nanowires are receiving much attention for biosensing because they offer the prospect o...
A monolithic process is developed for the fabrication of Si nanowires within thick Si substrates. A ...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...
The process for the fabrication of devices based on a single silicon nanowire with a triangular sect...
Electron beam lithography, low-damage dry etch and thermal oxidation have been used to pattern Si n...
The realization of reliable nanobiosensor devices requires the improvement of fabrication techniques...
Abstract: Integrated freestanding single-crystal silicon nanowires with typical dimension of 100 nm ...
A nanowire is a thin wire with a cross section conveniently measured in nanometres (nm). It has a la...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
This paper presents a wafer scale fabrication method of single-crystalline silicon nanowires (SiNWs)...
A facile method for the low-cost and large-scale production of silicon nanowires has been developed....
International audienceThe production and characterization of ultradense, planarized, and organized s...
Introducing a single silicon nanowire with a known orientation and dimensions to a specific layout l...
Semiconducting Silicon (Si) nanowires (NWs) have been widely investigated for their potential to fun...
Recently, Si nanowires are receiving much attention for biosensing because they offer the prospect o...
A monolithic process is developed for the fabrication of Si nanowires within thick Si substrates. A ...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...
The process for the fabrication of devices based on a single silicon nanowire with a triangular sect...
Electron beam lithography, low-damage dry etch and thermal oxidation have been used to pattern Si n...
The realization of reliable nanobiosensor devices requires the improvement of fabrication techniques...
Abstract: Integrated freestanding single-crystal silicon nanowires with typical dimension of 100 nm ...
A nanowire is a thin wire with a cross section conveniently measured in nanometres (nm). It has a la...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
This paper describes a robust process for the fabrication of highly doped Silicon-On-Insulator nanow...
This paper presents a wafer scale fabrication method of single-crystalline silicon nanowires (SiNWs)...
A facile method for the low-cost and large-scale production of silicon nanowires has been developed....
International audienceThe production and characterization of ultradense, planarized, and organized s...
Introducing a single silicon nanowire with a known orientation and dimensions to a specific layout l...
Semiconducting Silicon (Si) nanowires (NWs) have been widely investigated for their potential to fun...
Recently, Si nanowires are receiving much attention for biosensing because they offer the prospect o...
A monolithic process is developed for the fabrication of Si nanowires within thick Si substrates. A ...