Response of p-type and n-type Half-Heusler thermoelectric materials to fast neutron irradiation

“…17 TE materials are used in aerospace for power generation or thermal management in space missions and unmanned aerial vehicles (UAVs) in the absence of traditional power sources. 18–20 HH alloy-based materials viz. , NiMnSb, CoMnSb, and FeMnSb based compounds also exhibit magnetic properties and suitable for applications in magnetic storage devices, spintronics, and magnetic sensors.…”

“…17 TE materials are used in aerospace for power generation or thermal management in space missions and unmanned aerial vehicles (UAVs) in the absence of traditional power sources. [18][19][20] HH alloy-based materials viz., NiMnSb, CoMnSb, and FeMnSb based compounds also exhibit magnetic properties and suitable for applications in magnetic storage devices, spintronics, and magnetic sensors. [21][22][23] HH compound-based novel materials are not only used in TE power generation and spintronic devices but are also being explored as absorber layers in solar cells or as intermediate band materials to enhance the efficiency of photovoltaic devices.…”

Transport phenomena of TiCoSb: defect induced modification in the structure and density of states

“…17 TE materials are used in aerospace for power generation or thermal management in space missions and unmanned aerial vehicles (UAVs) in the absence of traditional power sources. 18–20 HH alloy-based materials viz. , NiMnSb, CoMnSb, and FeMnSb based compounds also exhibit magnetic properties and suitable for applications in magnetic storage devices, spintronics, and magnetic sensors.…”

“…17 TE materials are used in aerospace for power generation or thermal management in space missions and unmanned aerial vehicles (UAVs) in the absence of traditional power sources. [18][19][20] HH alloy-based materials viz., NiMnSb, CoMnSb, and FeMnSb based compounds also exhibit magnetic properties and suitable for applications in magnetic storage devices, spintronics, and magnetic sensors. [21][22][23] HH compound-based novel materials are not only used in TE power generation and spintronic devices but are also being explored as absorber layers in solar cells or as intermediate band materials to enhance the efficiency of photovoltaic devices.…”

Transport phenomena of TiCoSb: defect induced modification in the structure and density of states

Enhanced thermoelectric performance of Hf-doped ZrNiSn: a first principle study

Integration of thermal insulation and thermoelectric conversion embedded with phase change materials