The thermoelectric and physical properties of superlattices consisting of modulation doped Ge quantum wells inside Si1−yGey barriers are presented, which demonstrate enhancements in the thermoelectric figure of merit, ZT, and power factor at room temperature over bulk Ge, Si1−yGey, and Si/Ge superlattice materials. Mobility spectrum analysis along with low temperature measurements indicate that the high power factors are dominated by the high electrical conductivity from the modulation doping. Comparison of the results with modelling using the Boltzmann transport equation with scattering parameters obtained from Monte Carlo techniques indicates that a high threading dislocation density is also limiting the performance. The analysis suggests...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Ge-rich multiple quantum well heterostructures have been investigated as engineered material for eff...
The thermoelectric and physical properties of superlattices consisting of modulation doped Ge quantu...
The thermoelectric and physical properties of superlattices consisting of modulation doped Ge quantu...
The electrical conductivity, Seebeck coefficients, and thermal conductivities of a range of p-type G...
The electrical conductivity, Seebeck coefficients, and thermal conductivities of a range of p-type G...
We report recent progresses in the characterization of the vertical electrical and thermal propertie...
We report recent progresses in the characterization of the vertical electrical and thermal propertie...
We introduce the modulation-doping strategy in bulk SiGe nanostructures to improve the thermoelectri...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Ge-rich multiple quantum well heterostructures have been investigated as engineered material for eff...
The thermoelectric and physical properties of superlattices consisting of modulation doped Ge quantu...
The thermoelectric and physical properties of superlattices consisting of modulation doped Ge quantu...
The electrical conductivity, Seebeck coefficients, and thermal conductivities of a range of p-type G...
The electrical conductivity, Seebeck coefficients, and thermal conductivities of a range of p-type G...
We report recent progresses in the characterization of the vertical electrical and thermal propertie...
We report recent progresses in the characterization of the vertical electrical and thermal propertie...
We introduce the modulation-doping strategy in bulk SiGe nanostructures to improve the thermoelectri...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Silicon and germanium materials have demonstrated an increasing attraction for energy harvesting, du...
Thermoelectrics are presently used in a number of applications for both turning heat into electricit...
Ge-rich multiple quantum well heterostructures have been investigated as engineered material for eff...