Kei Hayashi
researchmap.jp
0000-0002-7948-6781
Tohoku University
107 papers found
Refreshing results…
Effects of Oxygen on Lattice Defects in Single-Crystalline Mg2Si Thermoelectrics
Charge-Compensated (V, Ru) Co-Substitution in Higher Manganese Silicide Single Crystals for Enhanced Thermoelectric and Mechanical Performance
Graphene-assisted synergistic electronic DOS modulation and phonon scattering to improve the thermoelectric performance of Mg3Sb2-based materials
Enhanced thermoelectric performance of p-type Mg2Sn single crystals via multi-scale defect engineering
Relevance of Solidification Kinetics for Enhanced Thermoelectric Performance in Al-Doped Higher Manganese Silicides
Realizing p-type Mg2Sn Thermoelectrics via Ga-Doping and Point Defect Engineering
Crystal structure, microstructure, and electronic transport properties of β-Zn4Sb3 thermoelectrics: effects of Zn intercalation and deintercalation
Chemical-Pressure-Induced Point Defects Enable Low Thermal Conductivity for Mg2Sn and Mg2Si Single Crystals
Effects of Disorder on the Electronic Structure and Thermoelectric Properties of an Inverse Full-Heusler Mn2CoAl Alloy
Erratum: “Preparation, thermoelectric properties, and crystal structure of boron-doped Mg2Si single crystals” [AIP Advances 10, 035115 (2020)]
Enhancing the Thermoelectric Performance of Mg2Sn Single Crystals via Point Defect Engineering and Sb Doping
Enhanced thermoelectric performance in MnTe due to doping and in-situ nanocompositing effects by Ag2S addition
Electron Conduction Mechanism of Deficient Half-Heusler VFeSb Compound Revealed by Crystal and Electronic Structure Analyses
Distinct impact of order degree on thermoelectric power factor of p-type full-Heusler Mn2VAl compounds
Preparation, thermoelectric properties, and crystal structure of boron-doped Mg2Si single crystals
Control of the Thermoelectric Properties of Mg2Sn Single Crystals via Point-Defect Engineering
Crystal structure, electronic structure and thermoelectric properties of β- and γ-Zn4Sb3 thermoelectrics: a (3 + 1)-dimensional superspace group approach
Crystal structure, electronic structure and thermoelectric properties of beta- and gamma-Zn4Sb3 thermoelectrics: a (3+1)-dimensional superspace group approach
Design and power generation of tilted Cu/Fe2V(Al0.9Si0.1) multilayers via the transverse thermoelectric effect
Reducing Lattice Thermal Conductivity of MnTe by Se Alloying toward High Thermoelectric Performance
Missing publications? Search for publications with a matching author name.