Add to ORKGThermoelectric properties of the W/Si/Ge alloy system have been investigated with varying concentration levels of germanium and tungsten. The alloys were fabricated by directional solidification with the Bridgman method using boron nitride and fused silica crucibles. The effect of crucible contamination was investigated and found to result in doping the system to suitable levels for thermoelectric applications. The system has been demonstrated as a suitable high temperature p-type thermoelectric material exhibiting high power factors, \u3e3000 μW/m K2. Seebeck coefficients of the system are on the order of +300 μV/K and electrical conductivities of 2.8 × 104 S/m at the optimum operating temperature. The best composition, 0.9 at% W/9.3 at% G...
The rapid increase in thermoelectric (TE) materials R&D is a consequence of the growing need to incr...
Thermoelectric phenomena couple thermal and electric currents, allowing for solid-state conversion o...
The rapid increase in thermoelectric (TE) materials R&D is a consequence of the growing need to incr...
The imminent oil crisis and global warming has revived research on sustainable energy resources. The...
Alloy systems comprised of silicon with germanium, lead with tellurium, and bismuth with antimony ha...
Traditional SiGe thermoelectrics have potential for enhanced figure of merit (ZT) via nano-structuri...
Si-Ge alloys has been used for many years in the thermoelectric modules in the NASA space probes in ...
Silicon-germanium (SiGe) alloys are prominent high-temperature thermoelectric (TE) materials used as...
In the pursuit of energy efficiency, there is a demand for systems capable ofrecovering waste heat. ...
A study of the preparation and analysis of selected transport properties of several thermoelectric m...
L'alliage Si-Ge est utilisé depuis de nombreuses années dans les modules thermoélectriques dans les ...
L'alliage Si-Ge est utilisé depuis de nombreuses années dans les modules thermoélectriques dans les ...
Thermoelectric properties as function of time and temperature for phosphorous doped n-type silicon-g...
We report a method for preparing p-type silicon germanium bulk alloys directly from a boron-doped si...
We report on thermoelectric properties of low Ge content n-type Si0.9Ge0.1–Mg2Si nanocomposite. Intr...
The rapid increase in thermoelectric (TE) materials R&D is a consequence of the growing need to incr...
Thermoelectric phenomena couple thermal and electric currents, allowing for solid-state conversion o...
The rapid increase in thermoelectric (TE) materials R&D is a consequence of the growing need to incr...
The imminent oil crisis and global warming has revived research on sustainable energy resources. The...
Alloy systems comprised of silicon with germanium, lead with tellurium, and bismuth with antimony ha...
Traditional SiGe thermoelectrics have potential for enhanced figure of merit (ZT) via nano-structuri...
Si-Ge alloys has been used for many years in the thermoelectric modules in the NASA space probes in ...
Silicon-germanium (SiGe) alloys are prominent high-temperature thermoelectric (TE) materials used as...
In the pursuit of energy efficiency, there is a demand for systems capable ofrecovering waste heat. ...
A study of the preparation and analysis of selected transport properties of several thermoelectric m...
L'alliage Si-Ge est utilisé depuis de nombreuses années dans les modules thermoélectriques dans les ...
L'alliage Si-Ge est utilisé depuis de nombreuses années dans les modules thermoélectriques dans les ...
Thermoelectric properties as function of time and temperature for phosphorous doped n-type silicon-g...
We report a method for preparing p-type silicon germanium bulk alloys directly from a boron-doped si...
We report on thermoelectric properties of low Ge content n-type Si0.9Ge0.1–Mg2Si nanocomposite. Intr...
The rapid increase in thermoelectric (TE) materials R&D is a consequence of the growing need to incr...
Thermoelectric phenomena couple thermal and electric currents, allowing for solid-state conversion o...
The rapid increase in thermoelectric (TE) materials R&D is a consequence of the growing need to incr...