In response to theoretical calculations on the thermoelectric performance of LiZnSb, we report the pertinent transport properties between room temperature and 523 K. Nominal LiZnSb samples are found to be p-type, with a carrier concentration in the range (4–7)×10^(20) cm^(−3). The thermoelectric figure of merit (zT) is found to be 0.02–0.08 at 523 K. Analysis of material transport parameters and previously reported ab initio calculations demonstrates that even with optimal doping, p-type LiZnSb is unlikely to achieve zT>0.2 at 523 K. The accuracy of the high zT estimate (zT>2) for n-type compositions from ab initio calculations is discussed within the current synthetic limits
Transport properties of the layered Zintl compound SrZnSb_2 have been characterized from room temper...
Thermoelectricity, as a substantial energy form alternate to the traditional fossil fuels, has attra...
In this review we discuss considerations regarding the common techniques used for measuring thermoel...
In response to theoretical calculations on the thermoelectric performance of LiZnSb, we report the p...
β-Zn_4Sb_3 is a promising thermoelectric material due to the abundance of zinc and antimony and repo...
The first example of polytypism in the I–II–V semiconductors has been demonstrated with the synthesi...
We report the use of Boltzmann transport theory to investigate the electrical properties of thermoel...
Thermoelectric transport properties of n-type PbTe_(1−x)I_x with carrier concentrations ranging from...
Thermoelectric materials create an electric potential when subject to a temperature gradient and vic...
Abstract Layered IV-V-VI semiconductors have immense potential for thermoelectric (TE) applications ...
NbFeSb is a promising thermoelectric material which according to experimental and theoretical studie...
We present an overview and preliminary analysis of computed thermoelectric properties for more than ...
This is the final version of the article. Available from AIP via the DOI in this record.In the prese...
The AZn_2Sb_2 (P¯3m1, A = Ca, Sr, Eu, Yb) class of Zintl compounds has shown high thermoelectric eff...
Here we investigate the half-Heusler ZrNiPb as a n-type thermoelectric material. Our results show th...
Transport properties of the layered Zintl compound SrZnSb_2 have been characterized from room temper...
Thermoelectricity, as a substantial energy form alternate to the traditional fossil fuels, has attra...
In this review we discuss considerations regarding the common techniques used for measuring thermoel...
In response to theoretical calculations on the thermoelectric performance of LiZnSb, we report the p...
β-Zn_4Sb_3 is a promising thermoelectric material due to the abundance of zinc and antimony and repo...
The first example of polytypism in the I–II–V semiconductors has been demonstrated with the synthesi...
We report the use of Boltzmann transport theory to investigate the electrical properties of thermoel...
Thermoelectric transport properties of n-type PbTe_(1−x)I_x with carrier concentrations ranging from...
Thermoelectric materials create an electric potential when subject to a temperature gradient and vic...
Abstract Layered IV-V-VI semiconductors have immense potential for thermoelectric (TE) applications ...
NbFeSb is a promising thermoelectric material which according to experimental and theoretical studie...
We present an overview and preliminary analysis of computed thermoelectric properties for more than ...
This is the final version of the article. Available from AIP via the DOI in this record.In the prese...
The AZn_2Sb_2 (P¯3m1, A = Ca, Sr, Eu, Yb) class of Zintl compounds has shown high thermoelectric eff...
Here we investigate the half-Heusler ZrNiPb as a n-type thermoelectric material. Our results show th...
Transport properties of the layered Zintl compound SrZnSb_2 have been characterized from room temper...
Thermoelectricity, as a substantial energy form alternate to the traditional fossil fuels, has attra...
In this review we discuss considerations regarding the common techniques used for measuring thermoel...