Add to ORKG\u3cp\u3eIncreasing energy demand and depleting fossil fuels make it imperative to shift to more efficient energy sources. Thermoelectric materials can convert waste heat into electrical energy by means of the Thermopower or Seebeck effect. Nanowires are promising candidates to increase the efficiency of thermo-electric conversion because their low dimensionality is predicted to increase the Seebeck effect due to confinement of charge carriers and decrease thermal conductivity due to boundary scattering of phonons. The Seebeck effect is characterized by the Seebeck coefficient which describes the output voltage per degree Kelvin in a thermoelectric material. Hence, in order to obtain the Seebeck coefficient, it is crucial to accurately meas...
The worlds demand for energy is ever increasing. Likewise, the environmental impact of climate chang...
In order to study the thermoelectric properties of individual nanowires, a thermoelectric nanowire c...
Nanowires (NWs) are ideal nanostructures for exploring the effects of low dimensionality and thermal...
Increasing energy demand and depleting fossil fuels make it imperative to shift to more efficient en...
Thermoelectric materials convert thermal energy into electrical energy using the Seebeck effect. The...
\u3cp\u3eThe peculiar shape and dimensions of nanowires (NWs) have opened the way to their exploitat...
Nanowires (NWs) are ideal nanostructures for exploring the effects of low dimensionality and thermal...
Póster presentado en la 12th European Conference on Thermoelectricity (ECT2014), celebrada en Madrid...
The increasing demand for fossil fuels, and the need to reduce greenhouse gases, requires ‘clean’ en...
The peculiar shape and dimensions of nanowires (NWs) have opened the way to their exploitation in th...
The peculiar shape and dimensions of nanowires ( NWs ) have opened the way to their exploitation in ...
The thermoelectric properties of bandles of indium antimonide nanowires with a diameter of about 5 n...
The worlds demand for energy is ever increasing. Likewise, the environmental impact of climate chang...
In order to study the thermoelectric properties of individual nanowires, a thermoelectric nanowire c...
Nanowires (NWs) are ideal nanostructures for exploring the effects of low dimensionality and thermal...
Increasing energy demand and depleting fossil fuels make it imperative to shift to more efficient en...
Thermoelectric materials convert thermal energy into electrical energy using the Seebeck effect. The...
\u3cp\u3eThe peculiar shape and dimensions of nanowires (NWs) have opened the way to their exploitat...
Nanowires (NWs) are ideal nanostructures for exploring the effects of low dimensionality and thermal...
Póster presentado en la 12th European Conference on Thermoelectricity (ECT2014), celebrada en Madrid...
The increasing demand for fossil fuels, and the need to reduce greenhouse gases, requires ‘clean’ en...
The peculiar shape and dimensions of nanowires (NWs) have opened the way to their exploitation in th...
The peculiar shape and dimensions of nanowires ( NWs ) have opened the way to their exploitation in ...
The thermoelectric properties of bandles of indium antimonide nanowires with a diameter of about 5 n...
The worlds demand for energy is ever increasing. Likewise, the environmental impact of climate chang...
In order to study the thermoelectric properties of individual nanowires, a thermoelectric nanowire c...
Nanowires (NWs) are ideal nanostructures for exploring the effects of low dimensionality and thermal...