Thermoelectric and Magnetic Properties of Biphasic ZrFe0.5Ni0.5Sb Double Half-Heusler and ZrNiSb Half-Heusler Induced by Co Doping
Joseph Ngugi Kahiu,
Samuel Kimani Kihoi,
Hyunji Kim
et al.
Abstract:Improving the efficiency of upcoming thermoelectric (TE)
materials
and exploring their potential for various niche applications are among
the promising strategies for addressing the challenges that impede
the commercialization of traditional TE materials. This work reports
the results of efforts to improve the performance of the recently
optimized ZrFe0.4Ni0.6Sb double half-Heusler
(DhH) by cobalt (Co) doping. The synthesized ZrFe0.4–y
Co
y
Ni0.6Sb
samples exhibit phase separation into coherent biphasic DhH an… Show more
Thermoelectric device represent an emerging technique that hold great promise for improving energy utilization efficiency and recovery of waste heat energy. In comparison to inorganic or metallic thermoelectric materials, conducting...
Thermoelectric device represent an emerging technique that hold great promise for improving energy utilization efficiency and recovery of waste heat energy. In comparison to inorganic or metallic thermoelectric materials, conducting...
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