Web7 jan. 2024 · MnTe is familiar to researchers when talking about thermoelectric materials. However, MnTe is usually mentioned when it plays the role of modifying and optimizing … Web18 aug. 2024 · Fabricating thermoelectric (TE) materials with porous structure is an effective approach to reduce lattice thermal conductivity; however, the electrical conductivity is usually severely sacrificed.… Expand 7 Thermoelectric, Magnetic, and Mechanical Characteristics of Antiferromagnetic Manganese Telluride Reinforced with Graphene …
Thermal stability and polymorphic transformation kinetics in β …
Web1 mei 2024 · ISCAS 2024 November 11, 2024. In this work, we propose an energy-efficient 64× 64 compute-in-memory (CIM) SRAM macro using a 7T bit-cell in 65nm CMOS UMC … Web10 jul. 2024 · The p- type antiferromagnetic MnTe is doped with different amounts of Cr to produce nondegenerate and n- type semiconductors of various carrier concentrations. Cr … github gitlab or bitbucket url
Wolverton Research Group - Thermoelectrics - Northwestern …
WebMy research focused on the thermal and thermoelectric transport of topological materials and oriented polymer, optical characterization of organic semiconductor polymer, and … Web26 okt. 2024 · Herein, an extremely high zT of ∼0.52 at room temperature and a maximum zT max of ∼1.2 at 823 K are achieved in 0.3% Cu-intercalated n-type PbTe–MnTe. The … Web21 nov. 2024 · Cu and Ag codoping not only optimizes the Seebeck coefficient but also substantially increases the carrier concentration and electrical conductivity, resulting in the significant enhancement of power factor. The maximum power factor reaches 11.36 µW cm −1 K −2 in Mn 0.98 Cu 0.04 Ag 0.04 Te. github gitlab