Transport and thermoelectric properties of melt spinning synthesized M2FeNiSb2 (M = Ti, Hf) double half Heusler alloys

[1]  A. Adam Electrical and Thermoelectrical Properties of Bi2-Xnaxte3 Alloys , 2022, SSRN Electronic Journal.

[2]  Kyu Hyoung Lee,et al.  Enhanced Thermoelectric Properties of Ti2FeNiSb2 Double Half‐Heusler Compound by Sn Doping , 2022, Advanced Energy and Sustainability Research.

[3]  Y. Altowairqi,et al.  Transport and thermoelectric properties of Nb-doped FeV0.64Hf0.16Ti0.2Sb half-Heusler alloys synthesized by two ball milling regimes , 2022, Journal of Alloys and Compounds.

[4]  A. Nafady,et al.  Mechanical and thermoelectric properties of FeVSb-based half-Heusler alloys , 2021 .

[5]  Y. Miyazaki,et al.  Outstanding thermoelectric performance of n-type half-Heusler V(Fe1−xCox)Sb compounds at room-temperature , 2021 .

[6]  A. Nafady,et al.  Manipulation of optical properties in thin tetradymite layers , 2021 .

[7]  A. K. Diab,et al.  Effects of transition metal element doping on the structural and thermoelectric properties of n-type Bi2-xAgxSe3 alloys , 2021 .

[8]  A. Adam,et al.  Effect of surfactant concentration on the morphology and thermoelectric power factor of PbTe nanostructures prepared by a hydrothermal route , 2021 .

[9]  A. Adam,et al.  Optimizing the thermoelectric performance of FeVSb half-Heusler compound via Hf–Ti double doping , 2020 .

[10]  A. Nafady,et al.  Effects of spark plasma sintering on enhancing the thermoelectric performance of Hf–Ti doped VFeSb half-Heusler alloys , 2020 .

[11]  Z. Charifi,et al.  Electronic structure, optical and vibrational properties of Ti2FeNiSb2 and Ti2Ni2InSb double half heusler alloys , 2020 .

[12]  A. Nafady,et al.  Preparation and thermoelectric power properties of highly doped p-type Sb2Te3 thin films , 2020 .

[13]  A. Adam,et al.  Tailoring the thermoelectric properties of Pb1-xSmxTe nanostructures via Sm doping , 2020 .

[14]  Xiaofang Li,et al.  Enhanced Thermoelectric Properties in p‐Type Double Half‐Heusler Ti2−yHfyFeNiSb2−xSnx Compounds , 2020, physica status solidi (a).

[15]  A. Adam,et al.  Transport and thermoelectric properties of Hf-doped FeVSb half-Heusler alloys , 2020 .

[16]  Han Byul Kang,et al.  Decoupled phononic-electronic transport in multi-phase n-type half-Heusler nanocomposites enabling efficient high temperature power generation , 2020 .

[17]  Y. Okamoto,et al.  High-Temperature Thermoelectric Properties of Pr1−xSrxFeO3 (0.1 ≤ x ≤ 0.7) , 2019, MATERIALS TRANSACTIONS.

[18]  L. Panina,et al.  Optical And Thermoelectric Properties Of Nanocrystalline Bi2(Se1-xTex)3 Films , 2018 .

[19]  Xinbing Zhao,et al.  Enhancing thermoelectric performance of FeNbSb half-Heusler compound by Hf-Ti dual-doping , 2018 .

[20]  E. Bauer,et al.  On the Half-Heusler compounds Nb1-x{Ti,Zr,Hf}xFeSb: Phase relations, thermoelectric properties at low and high temperature, and mechanical properties , 2017 .

[21]  A. Borisevich,et al.  Direct Observation of Inherent Atomic‐Scale Defect Disorders responsible for High‐Performance Ti1−xHfxNiSn1−ySby Half‐Heusler Thermoelectric Alloys , 2017, Advanced materials.

[22]  A. Adam,et al.  Characterization and optical properties of bismuth chalcogenide films prepared by pulsed laser deposition technique , 2017 .

[23]  V. Soprunyuk,et al.  Mechanical properties of half-Heusler alloys , 2016 .

[24]  Tiejun Zhu,et al.  High Efficiency Half‐Heusler Thermoelectric Materials for Energy Harvesting , 2015 .

[25]  A. Adam,et al.  Effect of heat treatment on the electrical and thermoelectric properties of Sb doped Bi2Se3 , 2015 .

[26]  Jian Zhou,et al.  Hydrothermal synthesis and thermoelectric transport properties of PbTe nanocubes , 2015 .

[27]  Y. Kimura,et al.  Microstructure evolution of nanoprecipitates in half-Heusler TiNiSn alloys , 2013 .

[28]  A. Adam,et al.  Structural, electrical, and thermoelectrical properties of (Bi1 − xSbx)2Se3 alloys prepared by a conventional melting technique , 2013, Journal of Experimental and Theoretical Physics.

[29]  C. Uher,et al.  Thermal and electronic charge transport in bulk nanostructured Zr0.25Hf0.75NiSn composites with full-Heusler inclusions , 2011 .

[30]  Xinbing Zhao,et al.  Reduced Grain Size and Improved Thermoelectric Properties of Melt Spun (Hf,Zr)NiSn Half-Heusler Alloys , 2010 .

[31]  Xinbing Zhao,et al.  Effects of yttrium doping on the thermoelectric properties of Hf 0.6 Zr 0.4 NiSn 0.98 Sb 0.02 half-Heusler alloys , 2010 .

[32]  S. Sakurada,et al.  Effect of Ti substitution on the thermoelectric properties of (Zr,Hf)NiSn half-Heusler compounds , 2005 .

[33]  C. Goldmann,et al.  Efficient dopants for ZrNiSn-based thermoelectric materials , 1999 .

[34]  O. Anderson,et al.  A simplified method for calculating the debye temperature from elastic constants , 1963 .