Add to ORKGMasterWe report the influence of dimension or doping concentration on thermal conductivity of silicon nanowire for thermoelectric application. Vertical silicon nanowire composite films, in which vertical nanowire array is embedded in dielectric materials, are fabricated by CMOS technology. The vertical nanowires have highly uniform dimension with diameters of 180 nm and 350 nm and heights of about 3 m. The differential 3ω method is used to measure the thermal conductivity of composite film. The thermal conductivity of nanowires with the diameter of 350 nm and 180 nm are 48.85 W/m∙K and 35.42 W/m∙K, respectively, which are 67 % and 75 % lower than that of bulk silicon. In addition, the boron and phosphorus doped silicon nanowires show the th...
The focus of this chapter is on the experimental results of the thermal conductivity of silicon nano...
Thermal transport in silicon nanowires has captured the attention of scientists for understanding ph...
The increasing demand for fossil fuels, and the need to reduce greenhouse gases, requires ‘clean’ en...
It is traditionally challenging to measure the thermal conductivity of nanoscale devices. In this Le...
Thermoelectric modules based on silicon nanowires (Si-NWs) have recently attracted significant atten...
Thermal conductivity of thin silicon nanowires (1.4−8.3 nm) including the realistic crystalline stru...
Thermoelectric modules based on silicon nanowires (Si-NI/Vs) have recently attracted significant att...
Nanocomposite materials have been sought after because of their reduced thermal conductivity. Nanoco...
In this research, the efficiency of thermoelectric effect in different dimensions is investigated. T...
The fabrication and characterization of silicon nanowire (NW) array/spin-on glass (SOG) composite fi...
We report indirect measurements of thermal conductivity in silicon nanostructures. We have exploite...
The thermoelectric properties of doped polycrystalline silicon nanowires have been investigated usin...
Nanostructured silicon is a promising material for thermoelectric conversion because the thermal con...
Silicon nanowires (NWs) are promising thermoelectric materials as they offer large reductions in the...
Thermoelectric materials convert thermal energy into electrical energy using the Seebeck effect. The...
The focus of this chapter is on the experimental results of the thermal conductivity of silicon nano...
Thermal transport in silicon nanowires has captured the attention of scientists for understanding ph...
The increasing demand for fossil fuels, and the need to reduce greenhouse gases, requires ‘clean’ en...
It is traditionally challenging to measure the thermal conductivity of nanoscale devices. In this Le...
Thermoelectric modules based on silicon nanowires (Si-NWs) have recently attracted significant atten...
Thermal conductivity of thin silicon nanowires (1.4−8.3 nm) including the realistic crystalline stru...
Thermoelectric modules based on silicon nanowires (Si-NI/Vs) have recently attracted significant att...
Nanocomposite materials have been sought after because of their reduced thermal conductivity. Nanoco...
In this research, the efficiency of thermoelectric effect in different dimensions is investigated. T...
The fabrication and characterization of silicon nanowire (NW) array/spin-on glass (SOG) composite fi...
We report indirect measurements of thermal conductivity in silicon nanostructures. We have exploite...
The thermoelectric properties of doped polycrystalline silicon nanowires have been investigated usin...
Nanostructured silicon is a promising material for thermoelectric conversion because the thermal con...
Silicon nanowires (NWs) are promising thermoelectric materials as they offer large reductions in the...
Thermoelectric materials convert thermal energy into electrical energy using the Seebeck effect. The...
The focus of this chapter is on the experimental results of the thermal conductivity of silicon nano...
Thermal transport in silicon nanowires has captured the attention of scientists for understanding ph...
The increasing demand for fossil fuels, and the need to reduce greenhouse gases, requires ‘clean’ en...