Add to ORKGOxide materials are currently considered a promising alternative to traditional thermoelectrics. Moderate charge carrier mobility stemming from strong covalent and ionic bonding, combined with relatively high thermal conductivity, represent known disadvantages of these materials for thermoelectric applications. However, oxides offer a possibility to operate at high temperatures, resulting in a higher Carnot efficiency. In addition, their known structural and microstructural versatility can open new horizons for thermoelectric applications. This work reviews some representative cases of engineering the composition and microstructure of a series of selected oxides towards high thermoelectric performance. The selected approaches will i...
This dissertation presents a study of thermal and electrical transport phenomena in heterostructures...
Since decades, thermoelectricity is deeply studied as no-waste energy source. Thermoelectric (TE) ma...
Resumen del trabajo presentado al 1st Iberian Thermoelectric Workshop (ITW), celebrado en Oporto (Po...
Oxide materials represent a promising alternative to traditional thermoelectrics, by providing a po...
Oxide materials represent certain advantages as compared to traditional thermoelectric materials, i...
Rapid progress in thermoelectric performance of oxide materials has been conducted virtually exclusi...
Since most of the energy (~60-70 %) used in the world is discharged as waste heat, the “green” ther...
The emerging global energy shortage has intensified the need for clean energy such as biomass, wind ...
peer reviewedThermoelectric devices can help to tackle future challenges in the energy sector throug...
The development of thermoelectrics for high-temperature applications imposes several essent...
Oxide materials possess notable high-temperature and chemical stability, thus representing certain ...
Donor-doped SrTiO3 ceramics are very promising n-type oxide thermoelectrics. We show that significan...
AbstractMany strategies have been adopted for improving the thermoelectric properties of oxides, and...
Today, a particular interest is given to the oxide-based thermoelectric materials, due to enhanced t...
Today a particular interest is given to the oxide-based thermoelectric materials, due to enhanced th...
This dissertation presents a study of thermal and electrical transport phenomena in heterostructures...
Since decades, thermoelectricity is deeply studied as no-waste energy source. Thermoelectric (TE) ma...
Resumen del trabajo presentado al 1st Iberian Thermoelectric Workshop (ITW), celebrado en Oporto (Po...
Oxide materials represent a promising alternative to traditional thermoelectrics, by providing a po...
Oxide materials represent certain advantages as compared to traditional thermoelectric materials, i...
Rapid progress in thermoelectric performance of oxide materials has been conducted virtually exclusi...
Since most of the energy (~60-70 %) used in the world is discharged as waste heat, the “green” ther...
The emerging global energy shortage has intensified the need for clean energy such as biomass, wind ...
peer reviewedThermoelectric devices can help to tackle future challenges in the energy sector throug...
The development of thermoelectrics for high-temperature applications imposes several essent...
Oxide materials possess notable high-temperature and chemical stability, thus representing certain ...
Donor-doped SrTiO3 ceramics are very promising n-type oxide thermoelectrics. We show that significan...
AbstractMany strategies have been adopted for improving the thermoelectric properties of oxides, and...
Today, a particular interest is given to the oxide-based thermoelectric materials, due to enhanced t...
Today a particular interest is given to the oxide-based thermoelectric materials, due to enhanced th...
This dissertation presents a study of thermal and electrical transport phenomena in heterostructures...
Since decades, thermoelectricity is deeply studied as no-waste energy source. Thermoelectric (TE) ma...
Resumen del trabajo presentado al 1st Iberian Thermoelectric Workshop (ITW), celebrado en Oporto (Po...