Add to ORKGThermal conductivity measurement is always a challenge and difficult task for thermoelectric characterization of semiconductor nanowire. A process flow for poly-Si nanowire device fabrication is been reported in this thesis. The device includes the nanowires as a part of its fabrication which avoids complicated placement of nanowire on the device for experiment and also avoids the contact resistance on the both sides of nanowire. The process flow is repeatable, reliable, and able to produce functional devices. Specifically, processes were found in this research to optimize the stress of Si nitride thin films and isotropic etching of Si substrate by using particular gas mixtures. By this device, thermal conductivity of nanowires of any mater...
Silicon nanowires (NWs) are promising thermoelectric materials as they offer large reductions in the...
A large amount of parallel silicon nanowires, placed perpendicularly to a silicon substrate (silicon...
Thermoelectric devices directly convert heat into electricity or vice versa through simple structure...
International audienceWe have grown various samples of Si and SiGe nanowires (NWs), either by a clas...
A microstructure along with a robust fabrication process is developed for measuring the thermal cond...
It is presented a process for engineering suspended Si nanostructures in order to measure the therma...
Abstract—This paper discusses the design, fabrication and testing of a novel thermoelectric device c...
The fabrication and characterization of silicon nanowire (NW) array/spin-on glass (SOG) composite fi...
It is traditionally challenging to measure the thermal conductivity of nanoscale devices. In this Le...
In this paper, the most recent achievements in the field of device fabrication, based on nanostruc- ...
MasterWe report the influence of dimension or doping concentration on thermal conductivity of silico...
Arrays of freestanding Si nanowires have been fabricated by electron beam lithography, low-damage d...
The focus of this chapter is on the experimental results of the thermal conductivity of silicon nano...
The thermoelectric properties of doped polycrystalline silicon nanowires have been investigated usin...
We have investigated various kinds of nanowires (Si, Bi2Te3, SiGe) in order to evaluate the influenc...
Silicon nanowires (NWs) are promising thermoelectric materials as they offer large reductions in the...
A large amount of parallel silicon nanowires, placed perpendicularly to a silicon substrate (silicon...
Thermoelectric devices directly convert heat into electricity or vice versa through simple structure...
International audienceWe have grown various samples of Si and SiGe nanowires (NWs), either by a clas...
A microstructure along with a robust fabrication process is developed for measuring the thermal cond...
It is presented a process for engineering suspended Si nanostructures in order to measure the therma...
Abstract—This paper discusses the design, fabrication and testing of a novel thermoelectric device c...
The fabrication and characterization of silicon nanowire (NW) array/spin-on glass (SOG) composite fi...
It is traditionally challenging to measure the thermal conductivity of nanoscale devices. In this Le...
In this paper, the most recent achievements in the field of device fabrication, based on nanostruc- ...
MasterWe report the influence of dimension or doping concentration on thermal conductivity of silico...
Arrays of freestanding Si nanowires have been fabricated by electron beam lithography, low-damage d...
The focus of this chapter is on the experimental results of the thermal conductivity of silicon nano...
The thermoelectric properties of doped polycrystalline silicon nanowires have been investigated usin...
We have investigated various kinds of nanowires (Si, Bi2Te3, SiGe) in order to evaluate the influenc...
Silicon nanowires (NWs) are promising thermoelectric materials as they offer large reductions in the...
A large amount of parallel silicon nanowires, placed perpendicularly to a silicon substrate (silicon...
Thermoelectric devices directly convert heat into electricity or vice versa through simple structure...