Add to ORKGOver the past years, thermoelectric Mg3Sb2 alloys particularly in n-type conduction, have attracted increasing attentions for thermoelectric applications, due to the multivalley conduction band, abundance of constituents, and less toxicity. However, the high vapor pressure, causticity of Mg, and the high melting point of Mg3Sb2 tend to cause the inclusion in the materials of boundary phases and defects that affect the transport properties. In this work, a utilization of tantalum-sealing for melting enables n-type Mg3Sb2 alloys to show a substantially higher mobility than ever reported, which can be attributed to the purification of phases and to the coarse grains. Importantly, the inherently high mobility successfully enables the thermoelec...
Thermoelectric Mg3+δ(Sb, Bi)2 Zintls have attracted significant attention because of their high-perf...
Mg3Sb2-based thermoelectric materials have poor electrical conductivity which is the key to limit th...
Bi2Te3-based materials are a representative thermoelectric system operating near ambient temperature...
Over the past years, thermoelectric Mg3Sb2 alloys particularly in n-type conduction, have attracted ...
Since the first successful implementation of n-type doping, low-cost Mg3Sb2-xBix alloys have been ra...
Approaching practical thermoelectric devices require high-performance and machinable thermoelectric ...
Mg_3Sb_2–Mg_3Bi_2 alloys show excellent thermoelectric properties. The benefit of alloying has been ...
n-type Mg3Sb2-based materials have become a top candidate for efficient thermoelectric applications ...
N-type Mg3Sb2-xBix alloys have been extensively studied in recent years due to their significantly e...
Zintl compounds make excellent thermoelectrics with many opportunities for chemically tuning their e...
n-Type Mg3Sb2–xBix alloys have been regarded as promising thermoelectric materials due to their exce...
Mg3Sb2 has attracted intensive attention as a typical Zintl-type thermoelectric material. Despite th...
Mg3Sb2- based Zintl compounds have recently attracted attention as a potential candidate for thermoe...
The thermoelectric performance of Mg3+xSb1.5Bi0.49Te0.01 was improved by reducing the amount of exce...
Several nanostructuring methods have been demonstrated to produce a variety of nanostructured materi...
Thermoelectric Mg3+δ(Sb, Bi)2 Zintls have attracted significant attention because of their high-perf...
Mg3Sb2-based thermoelectric materials have poor electrical conductivity which is the key to limit th...
Bi2Te3-based materials are a representative thermoelectric system operating near ambient temperature...
Over the past years, thermoelectric Mg3Sb2 alloys particularly in n-type conduction, have attracted ...
Since the first successful implementation of n-type doping, low-cost Mg3Sb2-xBix alloys have been ra...
Approaching practical thermoelectric devices require high-performance and machinable thermoelectric ...
Mg_3Sb_2–Mg_3Bi_2 alloys show excellent thermoelectric properties. The benefit of alloying has been ...
n-type Mg3Sb2-based materials have become a top candidate for efficient thermoelectric applications ...
N-type Mg3Sb2-xBix alloys have been extensively studied in recent years due to their significantly e...
Zintl compounds make excellent thermoelectrics with many opportunities for chemically tuning their e...
n-Type Mg3Sb2–xBix alloys have been regarded as promising thermoelectric materials due to their exce...
Mg3Sb2 has attracted intensive attention as a typical Zintl-type thermoelectric material. Despite th...
Mg3Sb2- based Zintl compounds have recently attracted attention as a potential candidate for thermoe...
The thermoelectric performance of Mg3+xSb1.5Bi0.49Te0.01 was improved by reducing the amount of exce...
Several nanostructuring methods have been demonstrated to produce a variety of nanostructured materi...
Thermoelectric Mg3+δ(Sb, Bi)2 Zintls have attracted significant attention because of their high-perf...
Mg3Sb2-based thermoelectric materials have poor electrical conductivity which is the key to limit th...
Bi2Te3-based materials are a representative thermoelectric system operating near ambient temperature...